1331027 九、發明說明: 【發明所屬之技術領域】 巧 本發明係相關於一種貼片式生理監測裝置,特別地是,係相關於一種輕 、貼附於體表之上、方便使用者於使用時移動的貼片式生理監測裝置。 【先前技術】 有鑑於現代人對於瞭解生理狀況的需求越來越重視所引起之對於生理監 測袭置越來越高的需求’尤其是在現今社會越來越忙碌的生活步調下,空出 時^往醫院顯得絲越_,再加上目前社會的老年化現_來越嚴^, 居家看護的需求越來越大’不過,卻礙於習知之生理監測裝置,無論是相 於健生理彳S伽制,通常都必須伴隨著佔據相當體積的機^,尤其是在 醫院系統之中,因此,隨身的生理監測裝置因應而生,試圖献隨 行生理監測的需求。 然而,即使是現今不斷蓬勃發展的無線、可攜式、手持式等生理監測裝 置’雖說已不同於以往醫院床邊的巨大監控裝置,且也改進了一些缺點,但 卻依然佔據-定的體積,當然也具有一定的重量,仍會讓使用雜使用者感 =到微’舉例而言,如美國專利第6,611,705號所示,其係揭示一種心電 仏虎監測的電極連接器以及電信號監測系統, ,,少傳統心電測量時,貼在受試者身上之電極與監== 乃是糊—f極連接11料树電極錢制主機之間的 二而’雖然此—方式的確避免了患者與監測主機之間的導線牽 在患者身上的該電極連接11依μ要佔據相當大的體 積’並且,傳^測主機體積龐大以及其相關的不方便性例如,移動性, 的問題也錢存在,因此,職可說是對f知缺點的部分改進。 -1第6,讽287號所示,—麵贿礙_、統係加以揭 不,且係以-㈣方錢行呈現,不過 計次方式顯示測量絲,並、 的 ㈣wm Γ 達成時讀輸,也因此並無法完整記錄 成“务 〃騎秉持的係為-鮮的麟勒1念,糾,翔專利 5 然達成了輕便_,卻也犧 適用於所有的生己錄,自然地其應用範圍也受到限制,並無法 記於—輕巧、枝細者鶴、且同日樣於㈣期間完整 有許多既有:生理監統此外’由於在現有的醫院設傷中已具 有低廉之換置成本的生理監測裝置以及系統,也是當務之急。 且㈣的目的即在於提供—種生理監測裝置,其不但體積輕巧, 線生理信嶋,㈣、鳴_纖置進行無 綠的再—目的係在於提供—種可以利用傳統所習用之電極及電極 、、.及/或電極貼片來進行測量的生理監測系統,以降低換購成本。 【發明内容】 本發明係相關於-種生理監測裝置,其係包括至少—本體,以及至少一 二=_在使用者之皮膚表面,_由與該本體結合而支持該本 ^使用,體表’而該本體則是包括至少—連接介面,以透過—連接線而外 -感測器或-電極,進而獲取生理信號,以及—無線收 傳輸及接收信號。 根據上述’該生理監職置斜以純f施為肋測量單—種、 ,生理信賴裝置,該_貼片係可加以實施為—生理錢制雜,一參 考及/或接地雜’或是-溫度感·,而舰_片與該本體之間的结合則 是可以是_-組扣方式、-縫方式、i合方式、—繫帶方式、或是任 何可相互結合的方式而加以達成,以及該連接介面與縣接狀間的連接乃 可以加以設計為-插接形式、―連接II形式、或是—直接連接形式,另外, 該無線收發介面可以包括縣,8G2.】lx,GPS,職,以及任够他可實施 無線收發的介面’並且’該連接介面可以加以實施為複數個,以連接複數個 6 1331027 電極,及/或感測器,且該感測器及/或該電極所測得之生理信號係可為下列 群組的至少其中之一:一心電信號,一腦電信號,一眼動信號,一肌電信號, 一鼾聲信號,一呼吸信號,一胸腹呼吸信號,一四肢移動感測信號,—軀體 移動感測信號,一頭部移動感測信號,以及一血氧信號。 另較具優勢地是,該本體更包括一電源開關,一顯示裝置,作為顯示/指 不之用,以及一操作介面,且該操作介面之中係包括一按鈕,以供使用者於 需要標記時間點時實行按壓標記。而亦具優勢地是,該本體更包括一處理 器,一放大電路,以及一可實施為可充電的電池,且據此,該本體更會包括 一充電介面,以對該充電電池進行充電,此外,該本體更可以具有一電源輸 入口以及一電源輸出口,以達成不同本體間的相互電源供應。1331027 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a patch type physiological monitoring device, and in particular, relates to a light, attached to a body surface, and is convenient for a user to use. Time-shifting patch-type physiological monitoring device. [Prior Art] In view of the increasing attention paid by modern people to the need to understand physiological conditions, the demand for physiological monitoring has become more and more high, especially in the increasingly busy life pace of today’s society. ^To the hospital seems to be more and more _, coupled with the current ageing of the society _ to the more strict ^, the need for home care is getting bigger and bigger' However, it is due to the physiological monitoring device of the well-known, whether it is physiological S gamma, usually accompanied by a considerable volume of the machine, especially in the hospital system, therefore, the physiological monitoring device with the body, in response to the need to provide physiological monitoring. However, even today's booming wireless, portable, handheld and other physiological monitoring devices, although different from the huge monitoring devices in front of hospital beds, have improved some shortcomings, but still occupy a certain volume. And of course, it also has a certain weight, and still makes the use of the user feel = to micro ', for example, as shown in U.S. Patent No. 6,611,705, which discloses an electrode connector for electrocardiogram monitoring and electric power. Signal monitoring system, ,, when less traditional ECG measurement, the electrode attached to the subject and the supervisor == is the paste-f pole connection between the 11-tree electrode and the host system, although this is the way The electrode connection 11 between the patient and the monitoring host is prevented from being held on the patient. The electrode is required to occupy a considerable volume. Moreover, the volume of the host is large and its related inconvenience such as mobility is problematic. There is also money, so the job can be said to be a partial improvement of the shortcomings. -1, 6th, satire No. 287, - face bribery _, the system is not revealed, and is presented with - (four) square money, but the method of measurement shows the measurement of silk, and (4) wm Γ when the achievement is read Therefore, it is not completely recorded as "the 〃 〃 秉 的 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - The scope is also limited, and can not be remembered - light, thin branches, and the same day (4) period, there are many intact: physiological supervision and in addition, due to the low cost of replacement in the existing hospital injury Physiological monitoring devices and systems are also a top priority. And (4) the purpose is to provide a physiological monitoring device that is not only lightweight, but also has a physiological signal, (4), and the _ fiber is placed in a green-free manner. A physiological monitoring system for measuring the electrodes and electrodes, and/or electrode patches conventionally used can be utilized to reduce the cost of redemption. SUMMARY OF THE INVENTION The present invention relates to a physiological monitoring device, which includes at least -this And at least one or two = _ on the skin surface of the user, _ is supported by the body to support the use of the body surface, and the body includes at least the connection interface to transmit the connection line and the external sense The detector or the -electrode, in order to obtain the physiological signal, and - the wireless transmission and reception signal. According to the above - the physiological supervision of the position of the pure f as a rib measurement single-type, physiological trust device, the _ patch system can It is implemented as - physiological money, a reference and / or grounding miscellaneous 'or - temperature sense ·, and the combination between the ship and the body can be _-binding method, - sewing method, i The combination method, the lacing method, or any combination of the methods, and the connection between the connection interface and the county connection can be designed as a plug-in form, a connection form, or a direct The connection form, in addition, the wireless transceiver interface may include a county, 8G2.] lx, GPS, job, and any interface that allows him to implement wireless transceivers 'and 'the connection interface can be implemented as a plurality to connect a plurality of 6 1331027 electrode And/or a sensor, and the physiological signal measured by the sensor and/or the electrode may be at least one of the following groups: an electrocardiogram signal, an EEG signal, an eye movement signal, and a muscle Electrical signal, a click signal, a breathing signal, a chest and abdomen breathing signal, a limb movement sensing signal, a body movement sensing signal, a head movement sensing signal, and a blood oxygen signal. The main body further includes a power switch, a display device for display/finger, and an operation interface, and the operation interface includes a button for the user to perform when marking the time point is required. Pressing the mark. It is also advantageous that the body further comprises a processor, an amplifying circuit, and a battery that can be implemented as a rechargeable battery, and accordingly, the body further includes a charging interface for the rechargeable battery In addition, the body may further have a power input port and a power output port to achieve mutual power supply between different bodies.
再者,根據本發明的一較佳實施例,該本體係可以加以實施為複數個, 所,’在此情形m.機生理監職置的電路及賴乃是分散分佈於 該等本體之中,且該本體更會包括—延伸連接裝置,以利用連接線而連接至 另-本體的延伸連接裝置,進而達成兩個本體之間的溝通。 π根據上述’該具有多個本體的生理制裝置係可以加以實施為用以測量 單一種、或是多種生理信號的裝置。 根據上述’較具㈣地是,該生理制裝置在具有多個本體的情形下, 件’以用於與該等本體的至少其中之-結合,觸 、另具優勢地是’該等本體的其中之—係加以實施為—具有同步化,設定, 3係之此ί的主控本體。在此情形下,該主控本體之外的其餘 _ ’、刀彳將所取得之信號無線地傳輸至該主控本體,或者,二者擇一 相其餘本體之間湘—有線方式相互連接,織再於 中之—會具有一無線收發介面的情形下,藉以進行與 身所取得之錢向㈣=。最後,触控本體再將所接收之信號以及其本 此外’有關該鱗收發介面方面,其係可以進行即時 根據本u的另—較佳實施例,該本體更會包括—接觸傳輸介面,以用 7 1331027 接觸電連接’而該接觸電連接則是可以達成該本體與—另—裝置之 /咨祖電,接進而凡成其間的—資料傳輸。據此,在該本體包括一用以儲 1士=5己憶體的情形了’所測得之資料也可以紐儲存在該記憶體之中, 再由该接觸傳輪介面進行傳輸。 本發明亦相_—種生理監測裝置,其係包括至少-本體,以及至少-脚寸、2用以朗在制者之皮膚表面,並齡與該本體結合而支持該本 ” „且” +該本體乃會包括至少一連接介面,以透過一連接線而外接-感 測器或-電極,進而獲取生理信號,以及—接觸傳輸介面,以使該本體盘一 電腦裝置或一另一裝置進行通訊。Furthermore, according to a preferred embodiment of the present invention, the system can be implemented as a plurality of devices, and in this case, the circuit and the reliance on the physiological monitoring of the machine are distributed among the entities. And the body further includes an extension connecting device for connecting to the extension connecting device of the other body by using the connecting wire, thereby achieving communication between the two bodies. π According to the above, the physiological device having a plurality of bodies can be implemented as a device for measuring a single type or a plurality of physiological signals. According to the above description, in the case of a plurality of bodies, the device is configured to be combined with at least one of the bodies, and the touch is additionally advantageous. Among them, it is implemented as - the main body of the synchronization, setting, and 3 systems. In this case, the remaining _ ', the knives outside the main control body wirelessly transmit the obtained signal to the main control body, or the other ones are connected to each other by a Hunan-wired method. Weaving in the middle of it - there will be a wireless transceiver interface, in order to carry out the money obtained with the body (four) =. Finally, the touch body further includes the received signal and the other aspect related to the scale receiving and receiving interface, which can be performed in accordance with another preferred embodiment of the present invention. The body further includes a contact transmission interface to With 7 1331027 contact electrical connection 'and the contact electrical connection can achieve the body and - the other device / consult the ancestral power, and then the data transfer. Accordingly, in the case where the body includes a case for storing 1 士 = 5 mnemonics, the measured data can also be stored in the memory, and then transmitted by the contact transfer interface. The invention also relates to a physiological monitoring device comprising at least a body, and at least a foot, 2 for aligning the surface of the skin of the maker, and combining with the body to support the body "" and "+" The body may include at least one connection interface for externally connecting a sensor or an electrode through a connection line to obtain a physiological signal, and a contact transmission interface, such that the body disk is implemented by a computer device or another device. communication.
較具優勢地是’該接觸傳輸介面係為—有線通訊介面包括USB, RS 232 1394 ’ UART ’ SPI ’或任何可用之有線通訊介面。 本發明更相關於-種生理監測系統,包括至少_生理監測裝置,以及一 無線收發裝置,其中’該生理監職置包括至少—本體,具有—無線收發介 面’以及=接觸傳輸介面,以及至少—貼附貼片,用以貼附在使用者之皮膚 表面’並藉由與該本體結合而支持該本體,該無線收發裝置包括―無線收發 介面’以及-接觸傳輸單元,_結合該本體雜接觸傳輸介面,其中,該 無線收發裝置齡接收無線傳輸自該生理監聽置的信號,以及透過將該本 體的該接觸傳輸介面結合於該無職發裝置的該接觸傳輸單元,係可以達成 該生理監測裝置與該無線收發裝置之間的一資料交換。 根據上述,較具優勢地是’該本體更包括一可實施為可充電的電池… 處理器,。及-放大電路,據此’該接觸傳輸介面會包括—充電介面以及該 接,傳鮮元會包括—相對縣電介面,以使得轉輸介面與該接觸傳 輸單元之_結合可以達成對該充電電池的充f。另具優勢地是,該接觸傳 ,介面包括-資料傳輸介面以及該接觸傳輸單^包括—相對應的f料傳輸 介面’以進行該本體與該無線收發裝置之間的該資料交換^至於該資料交換 則是會包括ID辨識’裂置設定,以及訊號傳遞等資訊。亦具優勢地是,該 捿觸傳輸單元可以加以設計為具有—對應於該本體之外㈣插口,以用於與 該本體進行插合,進而完成與該接觸傳輸介面之間的電連接,或者,二者擇 -地’該接麟鮮元触本體之雜㈣輸介面之_連接料以透過一 傳輸線、或是一連接器形式而加以達成。 8 1331027 理監測步詈^較佳實施方式’該無線收發裝置係可以同時與複數麵生 ‘二電連接,·該無線收發裝置更可包括—顯示裝置,以顯示來自 ^測裝置的該等信號,並因應該等信號的狀況而發出語音、聲 i二化’以引導及/或警告使用者,·該無線收發裝置係可以直接連接 介面,以用it連接至—舰系統,或者’該無線收發裝置更會包括一通訊 至-無备;連接至一電腦裝置’再由該電腦裝置連接至一網路,進而連接 m j其巾’錢職置在顯示來自該至少_生理監職置的該等 二邀轉^應轉信號的狀況而發出語音、聲響、或圖形變化,以引導及 者,且該通訊介面係可以是USB,1394,UART,SPI,或任何More advantageously, the contact transmission interface is a wired communication interface including USB, RS 232 1394 'UART 'SPI ' or any available wired communication interface. The present invention is more related to a physiological monitoring system, including at least a physiological monitoring device, and a wireless transceiver device, wherein 'the physiological supervisory position includes at least a body, having a wireless transceiver interface and a contact transmission interface, and at least Attaching a patch for attaching to the surface of the user's skin and supporting the body by combining with the body, the wireless transceiver comprising a "radio transceiver interface" and a contact transmission unit, _ combining the body a contact transmission interface, wherein the wireless transceiver is configured to receive a signal transmitted wirelessly from the physiological monitoring device, and the physiological transmission can be achieved by coupling the contact transmission interface of the body to the contact transmission unit of the non-service device A data exchange between the device and the wireless transceiver. According to the above, it is more advantageous that the body further comprises a battery that can be implemented as a rechargeable battery. And an amplifying circuit, according to which the 'contact transmission interface will include a charging interface and the connection, the fresh element will include a relative to the county interface, so that the combination of the transfer interface and the contact transmission unit can achieve the charging Charge the battery. It is also advantageous that the contact interface comprises: a data transmission interface and the contact transmission unit includes a corresponding f material transmission interface for performing the data exchange between the body and the wireless device. Data exchange will include ID identification 'split settings, and information transmission. It is also advantageous that the contact transmission unit can be designed to have a socket corresponding to the outside of the body for interfacing with the body to complete an electrical connection with the contact transmission interface, or The two are selected from the ground. The connection material is obtained through a transmission line or a connector form. 8 1331027 监测 监测 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 较佳 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该And, according to the condition of the signal, voice, vocalization, and/or warning to the user, the wireless transceiver can be directly connected to the interface to connect to the ship system, or the wireless The transceiver device further includes a communication to no device; a connection to a computer device' and then the computer device is connected to a network, thereby connecting the mj to the towel, and the money is placed on the display from the at least _ physiological supervisor Wait for the second call to respond to the status of the signal and make a voice, sound, or graphic change to guide the user, and the communication interface can be USB, 1394, UART, SPI, or any
2 ;以及雜魏發裝置射以具有—記_,鐵外接一記 思-°Χδ己憶體係可以是一記憶插卡以及一隨身硬碟的其中之一。 ^艮明的—較佳實施例,該生理監測裝置所包含之本體係、可以加以 ’’、固。在此情形下,較具優勢地是,該生理監測裝置更會包括至少 件’以用於與該等本體的至少其#之—結合,並使該本體依附於使 =32具優勢地是’該等本體的其十之―係加以實施為—主控本體, 少二,ΐ行同步化’設定’以及整合’且該主控本體會整合所有本體 之k唬,並將其傳輸至該無線收發裝置。 、—根據上述,在具有多個本體的情形τ,該生理監測裝置之數量係可以加 H、卩進行—或多種生理信號的監測,或者,二者擇—地,該生理 監測裝置之數量同樣可以在具衫個本體晴形下加时施以監 或多種生理信號。 ' 。此a外’根據本發明的較佳實關,該無·發裝置係可以為—無線收發 器或是-可攜式無線操作裝置,而該可攜式無線操作裝置狀可以為下列群 、’且的,、中之持式裝置,一手錶式裝置,一頸戴式裝置,以及其他可 隨身攜帶形式的裝置。 最後,本發明另提供一種生理監測網路,包括至少一 少一無·發裝置,以及-舰系統,其中,該生理監測裝置少一本 體,具有-接觸傳輸介面以及-無線傳輸介面,以及至少—貼附貼片,用以 麵在使时之皮絲面’並II由無本聽合而續該本體;該無線收發 裝置具有-接觸傳輸單元,錢行與該本體的該接觸傳輸介面之間的溝通; 1331027 此 ^伺服线贱肋即日槪/分析/處理/f_ 該嫩發裝置之間的溝通乃會包括-二以 2=線收發裝置與_服系統之_溝通係可以透過有線或是無線的方 【實施方式】 ^參閱第〗圖至第3圖,其係顯示根據本發明之— 的電路示意方塊圖,貼片形式,以及外部結構實施圖。 ^裝置 貼ίίΓίΓ裝置係包括一本體10以及一貼附貼片20,且該貼附 支ίϋΓΓ者之皮絲面,藉由與該本體ig的結合而完全地 支持林體1G ’因而使得該本體ω可以完全親附在使用者身體表面。 對庫至的與該本體10之間的結合,則是可以利用各種彼此相 扣方式(第2A圖),袋置方式(第2b圖),枯 。方式U 2C圖)’或是任何可以相互結合的方式,舉例而言,繫帶 2D圖),亦即,該本體僅需可以附著在該貼附貼片之上、並可受到完全的支 =1,域關兩者之咖結合方式,_,結合方式也無損於本發明的 獨将性。 再者’如第3圖所示,該本體1〇的外部結構係會包括至少 ’以用於透過-連接線3卜例如,傳統的電極連接線,而外接—電極川, 舉例而言,心電電極、或是—感測器,例如,—血氧感測器,進而從 10延伸H生理k號的感測器或是電極,也因此,根據不同之需求,Λ ) 而言,當需要測量多種生理參數時、或是需要多個電極一起進行測量: ^感^胸數量就可以有不同的配置,或者,在—開始設計時即先預留多個 連接介面’再依照不同的使用狀況決定所需連接之電極/感測器的,且 Γ ίί接t面與該連接線之間的連接方式,則是可以加以實施為-二接形 式、-連接器形式、或是-直接連接形式(如第3圖中所示之形式)。 舉例而言,當根據本發明之該貼片式生理監測裝置係加以 心電之裝置的情況下’配置方式即如下所述:首先,先決定二旦夕 電極於使用者身上所要放置雜置,例如,離上,罐位置的,接=, 將該貼附貼片貼附在該兩個位置間的_適當位置,或者,當進行,例如,Μ 10 1331027 =的測量方式時,將舰_片貼在五個電極配置位置_—適當位置, 2 以實際需要《依據’獨’要注意的是,無論所配置的方 可以減少線路之複雜度的原則作為基礎,然後,再將該本 ^;π之上’即可完成生理監測的主機配置。在此,由於該本 體係可以加以製造為體積非常的小,因此,利用該貼附貼片即可以完全 j本體’而無須使用如f知技術的胸帶、腰帶、甚至是將主機提在手上 式,當'然也不需要藉由連接線來進行支持,接著,將電極連接 開於即上Γ該連接介面’或是該電極連接線與該連接介面於-巧即已先灯連接在-起’錢,將電極处在前述所決定的位置上如此 即几成開始進行生理監測前的配置。 在此,需要注意的是,根據本發明的一較佳實施例,該貼附貼片除 附的功能之外’亦可以加以實施為一電連接於該本體的生理電極,也、, 1電極的其中之-,或是參考及域接地電.舉例而言,為了更簡化整體 配置’義_片乃可以直接加以實施為測量時所需 -,例如’心電測量時之紐觸其中之一,如此一來,只:在:本2 應於該細°電極的電連結結構就可以在完成依附的同時ί完成 電和的配置,更進-步簡化的目的輕易達成。另外,該貼附貼片除了可 ,加以實施為生理電極之外,其也可以加以實施為用以測得參考信號的電 極’及/或加㈣施為—錢接於該本體的溫 , g幅錢動而作為依據’當然,也可以用以提供有關該使用者體溫方面的 =該本體K)之中的電路配置,則如第i圖所示,該本體 此Ϊ藝之人而言所熟知的其他基本電路單元(未顯示):二 轉換電路,濾波器等。 Α/υ 田’,、、、:林體1〇之上更可以加以設置—開關丨,以 β請該生理監測裝置,以及β a 湖考開啟/ 否正常、择靜㈣廿 錯此瞭解電力狀況、運作是 否正吊操作隋K並且,該本體1〇之上也可以包括一按紐⑽,以提供 1331027 使用者的按壓需求,舉例而言,該按壓所提供的功能係可以加以設計為,去 進行測量時,讓使用者可以在認為身體情況有異樣時,利用按壓而進行時二 標記,以幫助後續的解讀,或是,當使用者覺得身體有異樣時,藉由按壓^ 按鈕而開始進行測量及紀錄一預定的時間,以協助醫生掌握無法預期的異^ 狀況,或者,讓使用者在需要求救時,可藉由按壓而發出求救信號等,也^ 是說,在此按鈕的功能上,其係可以依照需要而有不同的設計,當然,拿 量上也不設限。 田‘”、 文 再者,根據本發明之該生理監測裝置的該本體,其乃會包括一無線收發 ,面114’而該無線收發介面114則是用以進行與一外部裝置之間的無線^ 號傳輸以及接收’及/或亦可以包括—接觸傳輸介面U5,以完成與—外部^ 置,例如,一電腦裝置,之間的一接觸電連接,並藉以完成—資料傳輸 所以曰,若包括-無線收發介面時,該生理監測裝置所測得的生理信號係 S在測塁進行期’透過該無線收發介面而進行無線信號傳輸,若僅包括二 =觸傳輸介科,_生理監測裝置係可以在監戦成之後,透過該接 ,介面的電連接而將錄傳輸出去,或者,若是同時包括該無·發介面以 及越觸傳輸介面時,則該無線收發介面即主要作為使用(貼附於身上 間的傳輸介面,以及該躺傳輸介面主要使用於非__,例如,合該太 體中所配Ϊ之電池係為—充電電池時,該接觸傳輸介面就可以包含 面,以進行該電池的充電程序。 兀电η 其1V該無線收發介面係包括,但不限於,鮮,8G2.lla,謝.lib, 8〇2.11g,GPS,MM,以及其他的。 卜= 本體之巾更可以包括—記憶體(未顯示)’以使得整體的操作更 :由記歷的配置’根據本發明之該生理監職置所測得的生理信 :卞。以仃儲存在該記憶體之巾,錢,再如上所述地藉 :_仏_為,即時無線傳===== 形下’如何料獅雜也是需要考量之- 另—個重要特徵是,該本體的數量並不受限,亦即, 憤置是賤實施細量多 卩 為—或多種),該本體的數量都不受限,也就是說,其可以隨著不 12 1331027 ,开/進行最彈性的變化。舉例而言,若是加以 監測時’ W如,十二導程心電監測,或是腦電二要多點的單—種生理 較多的電路配置,因此,為了減少本體的體積^ ^則由於多個電極需要 貼片’整體生理監測裝置的電路配置 /L吏用多個電極 貼片之上的梢,只紐此之_互電連接個可⑽合於該等電極 簡單實施_時的一種最 之中,根據本發明的單-種生理監情形。在此實施例2; and the Wei Weifa device shoots with a note -, the iron is connected to a think - ° Χ δ recall system can be one of a memory card and a portable hard drive. In a preferred embodiment, the system included in the physiological monitoring device can be ‘’ In this case, it is more advantageous that the physiological monitoring device will further comprise at least a piece 'for use in conjunction with at least the # of the bodies, and the body is attached such that =32 is advantageously ' The tenth of the ontology is implemented as - the main body, the second, the synchronization 'set' and the integration 'and the main body will integrate all the ontology and transmit it to the wireless Transceiver. According to the above, in the case of having a plurality of bodies τ, the number of the physiological monitoring devices can be increased by H, 卩 or a plurality of physiological signals, or alternatively, the number of the physiological monitoring devices is the same It can be applied to monitor or a variety of physiological signals when the body is in a clear shape. ' . According to a preferred embodiment of the present invention, the non-transmitting device can be a wireless transceiver or a portable wireless operating device, and the portable wireless operating device can be in the following group, And, in the holding device, a watch device, a neck-worn device, and other devices that can be carried around. Finally, the present invention further provides a physiological monitoring network comprising at least one less than one transmitter device, and a ship system, wherein the physiological monitoring device has less body, has a contact transmission interface and a wireless transmission interface, and at least Attaching a patch for covering the surface of the skin of the time and continuing the body by the present; the wireless transceiver has a contact transmission unit, and the contact transmission interface of the money line and the body Inter-communication; 1331027 This ^ servo line ribs is the day / analysis / processing / f_ The communication between the tender devices will include - two to 2 = line transceivers and _ service system _ communication system can be wired or It is a wireless party. [Embodiment] Referring to the drawings to FIG. 3, there are shown schematic block diagrams, patch forms, and external structure implementation diagrams according to the present invention. The device device includes a body 10 and a patch 20 attached thereto, and the skin surface of the attached person is fully supported by the body ig by combining with the body ig ' thus making the body ω can be completely attached to the surface of the user's body. For the combination of the library and the body 10, it is possible to use various interlocking methods (Fig. 2A) and bagging methods (Fig. 2b). Mode U 2C diagram) 'or any way that can be combined with each other, for example, a 2D diagram), that is, the body only needs to be attached to the attached patch and can be completely supported = 1, the domain of the two coffee combination, _, the combination of the way does not detract from the uniqueness of the present invention. Furthermore, as shown in Fig. 3, the external structure of the body 1 会 will include at least 'for the transmission-connection line 3, for example, a conventional electrode connection line, and an external-electrode tube, for example, a heart An electric electrode, or a sensor, for example, a blood oxygen sensor, which in turn extends the H physiological k sensor or electrode from 10, and therefore, according to different needs, Λ), when needed When measuring a variety of physiological parameters, or requiring multiple electrodes to measure together: ^The number of chests can be differently configured, or, at the beginning of the design, a plurality of connection interfaces are reserved, and then according to different usage conditions. Determining the connection of the electrode/sensor to be connected, and the connection between the t-plane and the connection line can be implemented as a 2-connection form, a connector form, or a direct connection form. (as shown in Figure 3). For example, in the case where the patch type physiological monitoring device according to the present invention is an electrocardiographic device, the configuration is as follows: First, it is first determined that the second electrode is placed on the user, for example, , from the top, the position of the tank, the connection =, attach the attached patch to the appropriate position between the two positions, or, when performing, for example, the measurement mode of Μ 10 1331027 = Stick to the five electrode configuration positions _-appropriate position, 2 to the actual needs "according to the 'independence' to note that regardless of the principle that the configured party can reduce the complexity of the line as a basis, then, then the ^; Above π' can complete the host configuration of physiological monitoring. Here, since the system can be manufactured to be very small in size, the patch can be completely used for the body without using a chest strap, a belt, or even a host. In the above formula, when there is no need to support by the connecting line, then the electrode is connected to the upper connection interface or the electrode connection line and the connection interface are connected to the light. - From 'money, the electrode is placed at the position determined above, so that the number of components is set before the physiological monitoring. Here, it should be noted that, according to a preferred embodiment of the present invention, the attached patch may be implemented as a physiological electrode electrically connected to the body, and also, 1 electrode. Among them - or reference and domain grounding. For example, in order to simplify the overall configuration, the 'slices can be directly implemented for measurement purposes, for example, one of the touches of the ECG measurement. In this way, only: in: 2, the electrical connection structure of the electrode should be completed, and the electrical configuration can be completed at the same time, and the purpose of further step-by-step simplification is easily achieved. In addition, the attached patch may be implemented as a physiological electrode, or it may be implemented as an electrode for measuring a reference signal and/or (4) as a temperature to which the body is attached. The structure of the money is used as the basis of the 'of course, it can also be used to provide the body temperature of the user = the body K." As shown in Figure i, the body of the artist Other basic circuit units (not shown) that are well known: two conversion circuits, filters, and the like. Α/υ田 ',,,,: Forest body 1〇 can be set up - switch 丨, to β please the physiological monitoring device, and β a lake test open / no normal, choose static (four) 此 wrong to understand the power The condition, the operation is hoisting operation 并且K, and the button 1 也 can also include a button (10) to provide the pressing requirement of the 1333127 user. For example, the function provided by the pressing can be designed as When making measurements, the user can use the press to perform the second mark when the body condition is considered to be different, to help the subsequent interpretation, or when the user feels that the body is different, start by pressing the ^ button. Measure and record for a predetermined period of time to assist the doctor in grasping unforeseen circumstances, or to allow the user to send a distress signal by pressing when asked to save, and also to say that the function of the button In addition, the system can have different designs according to needs, of course, there is no limit on the amount. The body of the physiological monitoring device according to the present invention will include a wireless transceiver surface 114' and the wireless transceiver interface 114 is used for wireless communication with an external device. The ^ transmission and reception 'and/or may also include the contact transmission interface U5 to complete a contact electrical connection with the external device, for example, a computer device, and to complete the data transmission, so if Including the wireless transceiver interface, the physiological signal system S measured by the physiological monitoring device performs wireless signal transmission through the wireless transceiver interface during the measurement period, if only the two-touch transmission interface is included, the physiological monitoring device After the monitoring, the recording can be transmitted through the electrical connection of the interface or the interface, or if the interface is included and the transmission interface is used, the wireless transceiver interface is mainly used (posted The transmission interface attached to the body and the lying transmission interface are mainly used for non-_, for example, when the battery in the main body is a rechargeable battery, the contact transmission The face can be included to carry out the charging process of the battery. 1 η 1V The wireless transceiver interface includes, but is not limited to, fresh, 8G2.lla, Xie.lib, 8〇2.11g, GPS, MM, and Others. Bu = The towel of the body may further include a memory (not shown) to make the overall operation more: from the record configuration 'physiological letter measured according to the physiological supervision of the present invention: 卞.仃 stored in the memory of the towel, money, and then borrowed as described above: _ _ _, instant wireless transmission ===== Form under the shape of how to meet the lion is also considered - another important feature is that The number of the body is not limited, that is, the inversion is to implement a fine amount of multiple-or-multiple types, and the number of the body is not limited, that is, it can be opened without 12 1331027 / For the most flexible changes, for example, if you are monitoring, 'W, 12-lead ECG monitoring, or EEG 2 more than a single-physiological circuit configuration, therefore, in order to reduce the ontology The volume ^ ^ is due to the need for multiple electrodes for the patch 'the overall physiological monitoring device's electricity Configuring /L to use the tips on the plurality of electrode patches, only one of them can be connected to each other (10) in combination with the simple implementation of the electrodes, a single physiological monitor according to the present invention Situation. In this embodiment
使用者身上,乃會提供—另—助_ 2G 為了=本體職附在 前述,該等貼附貼片20,20,都可以實施為測===進當=如 配置複雜度,再者,為了達成此—配置,轉本體地減少 申ίΐ裝^107 ’以使得該等本體丨0 ’10,能夠透過連接線4,1、而= ,接’驗’利用設置於該本體UT之上的連接介面如,(如同第3圖 述之«接介面1G1 )連接增設的電極及/或感測器3⑻,如此—來,即可以 2不增加該本體之體積、也不增加使用者負擔的情形下完成多個電極 如,十二導程心電測量,的測量需求。 而且,由於不_描1(),之間乃是_連接線進行相互電連接而達成彼 此之間的溝通,所以’藉由多個本體的設置,縣皆是由同—個本體延伸而 出之電極線,也可以獲關化,亦即,較叙敎賴本體之_連接線複 雜度可以因為中繼本體的設置而獲得降低,如第5圖所示之十二導程實施方 式。 在此,較具優勢地是,該延伸連接裝置〗07與用以連接的該連接線41 之間連接的達成係可以利用一插接形式(第7Α圖)、一連接器形式(第7Β 圖)、或是一直接連接形式(如第4圖所示)’以及該貼附貼片與該附加單元 之間的結合,同樣地,係可以利用一組扣方式、一袋置方式、一粘合方式、 —繋帶方式、或是任何可相互結合的方式而加以達成。 而除了上述的延伸連接裝置之外,該本體的結構配置上還可以更進一步 地包括一電源輸入口 105以及一電源輸出口 106,如第3圖所述,以利於自 鄰近的本體獲取電源供給,也同樣的可以將電源供給至鄰近的本體。顯然 !3 1331027 種更讀的配置方式,箱㈣更進—步的達成減少主 一 n、° (因為電池之體積顯然佔該本體的相當大部分,如第i圖 所不)、’也可以在測量期間發生電源短缺時獲得電源補充而無需中斷測量。 不過在此要提出的是,圖中所示之配置方法皆僅是舉例之用’要如何 體m从要錢州_,都可减需要而進行調整, 的产开^外是說’除了使用如第5圖所示之多個本體配合傳統電極線 利用其他的方式來進行簡化,如第6圖所示,軟排線、 ^效果,也提供itt是另—種很好的選擇,因為其不但可以有更良好的傳 国〆 ’、更^土的貼附性。不過,要注意的是,無論是第5圖或第6 Μ是舉例之用’本發明並不因此而受限’實施的方式可以有 作種生理測量裝置的分散式配置方式乃是一種具應變性的 乍法’因此,料本體之^所包含的電路,只要能夠制容絲置 = = ’皆是其中的一種可能性,例如,一種可能性是,某些本體 中僅已3扎的電路’例如,放大電路'趟轉換電路等,而不需要包括 -些可共用的配置,如處理器,無線收發介面等,以避免體積過大。 署本發明的另—個實施例,即使是兩個電極的生理監測裝 f雜或純行監_單齡理監職置,也™接實施為多個 迦如上述之已經相當小巧的裝置會再分開成為更小的多個利用連 ίϊ ΐ ί也!1是說,單—種生理監測裝置的所有内部配置,例如, '、=、處理$、A/D轉換電路等,係直接分散地分佈於該多個本體 之=如第8圖所示’該生理監測裝置的所有内部配置係可以任意的依需要 t fΓ有的本體10”、1G,”之中,舉例而言,可以將放大器單獨放 it 中(第Μ圖所示)' 或是可以將電池分離出來、或是將放大 歧置在—個本體之帽。在此要注意献,所實施 的本體數董當然並不僅限於兩個,也可以是大於兩個的數量,而且,内部配 ^不限於圖中所示’可以進行任意的分配,例如,也可以讓每個本體皆且 有處理器(如第8B圖所示)等,完全視需要而定。 八 在此例子中,由於-個本體就會配借—個貼附貼片20,因此完全不會有 無法附著的問題,不過’要特別指出地是,若是在進行需要多個電極之生理 1331027 監測的情形下,例如’-般的心電測量需要至少兩個電極時、献%導程、 ^導程之心電測量需要多個電極時,該等貼片自然可以由所使用之傳統紐知 電,貼片(如圖中811所標示者)所取代,至於該等本體就只需加以實施 所=要之數量、且可結合於該電極貼片上即可,因此,本體與貼片(電極) 兩者的數量以及如何搭㈣完全林限(在本體數量大於電極數量時, 使用非電極之貼附貼片即可),如此一來’就可以在無法減少電極貼片之數 量的情形下,轉而將生理監測裝置之本體的體積變得更為小巧(分散式八 佈)’進而讓使用者於使用時的負荷可以相對地被減少,甚至感受不ς 的存在。On the user's body, it will provide - another - help _ 2G in order to = the body attached to the above, the attached patches 20, 20, can be implemented as a test === into the = if the configuration complexity, and, In order to achieve this configuration, the body is reduced by the body to make the body ^ 0 '10, so that the body 丨 0 '10 can be connected to the body UT through the connection line 4, 1, and = The connection interface, for example, (as in the third interface, the interface 1G1) is connected to the additional electrode and/or the sensor 3 (8), so that 2 can increase the volume of the body without increasing the burden on the user. Under the measurement requirements of multiple electrodes such as, twelve-lead ECG measurement. Moreover, since there is no _ tracing 1 (), the _ connecting lines are electrically connected to each other to achieve communication with each other, so 'by the arrangement of a plurality of main bodies, the counties are all extended by the same body The electrode line can also be turned off, that is, the complexity of the connection line can be reduced due to the arrangement of the relay body, such as the twelve-lead embodiment shown in FIG. In this case, it is advantageous that the connection between the extension connection device 07 and the connection line 41 for connection can be realized by a plug-in form (Fig. 7) and a connector form (Fig. 7). ), or a direct connection form (as shown in Figure 4) and the combination of the attached patch and the additional unit, similarly, a set of buckles, a bag, a stick The combination, the lacing method, or any combination of methods can be achieved. In addition to the above-mentioned extension connection device, the structure of the body may further include a power input port 105 and a power output port 106, as described in FIG. 3, to facilitate power supply from the adjacent body. It is also possible to supply power to an adjacent body. Obviously! 3 1331027 kinds of more read configuration, the box (four) is more advanced - the step is reduced to reduce the main one n, ° (because the volume of the battery obviously accounts for a considerable part of the body, as shown in Figure i), 'may also Power supplementation is obtained when a power shortage occurs during measurement without interrupting the measurement. However, what is to be mentioned here is that the configuration methods shown in the figure are only examples of how to use the body to change from the need to the state, and the production can be adjusted. As shown in Fig. 5, the plurality of bodies cooperate with the conventional electrode lines by other means for simplification, as shown in Fig. 6, the soft line, the ^ effect, and the provide is also another good choice because Not only can there be a better distribution of the country, but also the attachment of the soil. However, it should be noted that either Figure 5 or Figure 6 is an example of a method in which the present invention is not limited, and the method of implementation may have a decentralized configuration of the physiological measuring device. Sexual tricks' Therefore, the circuit included in the body of the material, as long as it can make the wire set = = ' is one of the possibilities, for example, a possibility is that some of the body has only 3 tied circuits 'For example, an amplifying circuit', a conversion circuit, etc., without having to include some common configurations, such as a processor, a wireless transceiver interface, etc., to avoid excessive volume. According to another embodiment of the present invention, even if the physiological monitoring of the two electrodes is carried out, or the pure line monitoring _ single-age supervision, the TM is implemented as a plurality of devices that are relatively small as described above. Separate into smaller ones and use them. 1 means that all internal configurations of a single physiological monitoring device, such as ', =, processing $, A/D conversion circuits, etc., are directly dispersed. Distributed in the plurality of bodies = as shown in Fig. 8 'All internal configurations of the physiological monitoring device can be any desired body 10", 1G, as needed, for example, an amplifier can be used Separate it in the middle (shown in the figure)' or you can separate the battery or dispose it in the cap of the body. It should be noted here that the number of ontology implemented is of course not limited to two, but may be more than two, and the internal configuration is not limited to the one shown in the figure, and may be assigned arbitrarily, for example, Let each body have a processor (as shown in Figure 8B), etc., depending on the needs. Eight In this example, since the body will be attached to the patch 20, there is no problem that it cannot be attached, but 'specially, if it is performing physiological 1331027 requiring multiple electrodes. In the case of monitoring, for example, when the electrocardiographic measurement requires at least two electrodes, the % lead, and the lead ECG measurement require multiple electrodes, the patches can naturally be used by the traditional The patch (as indicated by 811 in the figure) is replaced, and the body is only required to be implemented and can be bonded to the electrode patch. Therefore, the body and the patch (electrode) The number of the two and how to take (4) the full forest limit (when the number of the body is greater than the number of electrodes, use the non-electrode attached patch), so that you can not reduce the number of electrode patches In turn, the volume of the body of the physiological monitoring device is made smaller (distributed eight cloth)', so that the user's load during use can be relatively reduced, and even feel uncomfortable.
舉例而β ’ -種可能的實施方式會是:若在使用多個電極時,每個電極 皆是利用-個放大器來避免職之衰減嶋,舰可·每個放大器分別設 置在結合於該個電極貼片之上的本體之中,如此—來,原本可能會很大的本 體體積就可以均勻地被分配至每個一定會存在的電極貼片之上,並且,由於 如此的配置方式對每-個貼片的負擔都很小,因此,使用只到 貼片而不會有增加本體的感覺。 會认又到 另-種可能實施方式則可以是:若要避免訊號衰減及雜訊的方式是先將 所接收之訊號進行數位化,則就會需要更多的處理器'轉換電路、以及 放大器’因此’根據本發明之此實施例的配置就可以是,在多個本體之中包 含有多個處㈣、多個A/D轉換電路、以及多個放Α||,而且,如^方式$ 可以因為已數位化的關係而減少了本體間連接線的複雜度。此外,要特^說 明的是,各種元件並不一定都存在於每一個本體之中,其係可以是依不同^ 件之效能差異而分配絲财體制—個元件的情形,峨盡量減^本體之 體積。 a “所以’如上所述’在此實關中,各個電路的分配方式乃可以自由地隨 著需求而進行變化。至於上述的較佳實施細僅是為了舉例說明所做之敎 述’本發明並不因此而受限。 ’ 至此’根據本發明之可用以測量各種生理參數、可依需要進行擴充、可 輕巧貼附於使用者體表的生理監聽魏提供如上,且藉由上述本發明所提 供的各種實施方式,使用者即可因應使壯的需要續出各式各樣的組合。 而接下來所揭示者,則為該生理監測裝置於應用時之具體搭配方式的實^說 15 丄叫027 明。 如第9圖以及第10圖所示,本發明亦提供一種生理監測系統,其係包括 至少-如上所述的該生理監測裝置丨〇以及―無線收發器卿,麵,其中, 。玄生理|^職置’如上親,係會包括,_無線收發介面以及—接觸傳輸介 =心於該本體之t,以及-貼,崎於使用者之皮絲面,且藉 本觀合而支雜倾,錢,該無雜發器,誦乃會包括一 ‘.,、線收發介面以及-可與該本體之該_傳輸介面⑴滅合的接觸傳輸單 ΓηΓ斑聰,再者,該無線收發器9〇0,_則是會藉由一通訊介面9〇2, :’舉例而言’如圖所示,-聰介面,而與一電腦裝置相連接,因此, 電腦裝置之情設置的相對應軟體,該無線收發器_,麵就可以 ,所接收之傳輸自該本體Κ)的生理信號 '或資訊進行即時的相關處理、儲 ^,示等操作’使用者也因此可以隨時監看、觀察所測量之生理信號的情 、且透過於„亥電腦裝置上所執行之相關軟體的設定,該電腦裝置更可 :因應=接收自該生理裝置之信號的狀況而發出 失去絲告錢者,㈣朝㈣通知的妓,也敎由於疏= ’透過該電腦裝置所連接之網路,該生理監測裝置還可以 者:專u,§亥伺服系統也可以將結果回傳至該電腦裝置,而提供予使用 另外,當於該本體中所包含之電池係為一充電電池時,則該接 可兩者之中尚會包括一對相對應的充電介面,因此,就 ϋ玄接觸傳輸,1面以及該翻傳輸單元相 合連 γ— 透過另外的充電裝置。’接線相連)即可完成充電程序,無須再 所以,在如此的實施例之中,一方面, 之間可以透戦鱗收發介_進行躲的監測裝置 發器可接收無線傳輸自該生理監的n'、^玄無線收 16 1331027 以==^綱傳輸單元之_合方式,舉_,係可 择二州/外刑°以達成’百先’如第9圖所示,該本體與該無線收 ^及j目配合的一插合方式而進行結合,再者,如第10For example, β ' - a possible implementation would be: if multiple electrodes are used, each electrode uses an amplifier to avoid the attenuation of the user, and each amplifier can be set in the same In the body above the electrode patch, as such, the bulk volume that would otherwise be large can be evenly distributed onto each of the electrode patches that must exist, and, due to this configuration, - The burden of a patch is very small, so use only the patch without the feeling of adding a body. It is possible to recognize that another way to avoid signal attenuation and noise is to first digitize the received signal, then more processors 'conversion circuits, and amplifiers are needed. The configuration of the embodiment of the present invention may be such that a plurality of bodies (four), a plurality of A/D conversion circuits, and a plurality of amps || are included in the plurality of bodies, and $ can reduce the complexity of the connection between the ontology due to the digitized relationship. In addition, it should be noted that various components do not necessarily exist in each of the ontology, and the system may be a situation in which the components of the silk financial system are assigned according to the difference in performance of different components. The volume. a "So, as described above," in this context, the manner in which the various circuits are distributed can be freely varied as needed. The preferred embodiment described above is for illustrative purposes only. It is not limited thereby. 'At this point' is a physiological monitoring that can be used to measure various physiological parameters, can be expanded as needed, and can be lightly attached to the body surface of the user according to the present invention, and is provided by the above-described present invention. In various implementations, the user can continue to make various combinations according to the needs of the strong. The next disclosure is the actual matching method of the physiological monitoring device in the application. 027. As shown in Figures 9 and 10, the present invention also provides a physiological monitoring system comprising at least - the physiological monitoring device as described above and a "wireless transceiver", wherein. Xuan physiology|^职's above, the system will include, _ wireless transceiver interface and - contact transmission media = the body of the body t, and - paste, the user's skin surface, and by the view Miscellaneous, money, the non-delta, the device will include a '., line transceiver interface and - contact transmission with the body's transmission interface (1), the transmission transmission unit The transceiver 9〇0, _ is connected to a computer device by a communication interface 9〇2, : ', for example, as shown in the figure, and the computer device is set. Corresponding to the software, the wireless transceiver _, the face can be, the received physiological signal transmitted from the body ') or information for immediate related processing, storage, display and other operations, the user can therefore monitor at any time Observing the measured physiological signals, and through the setting of the related software executed on the computer device, the computer device can: send out the loser according to the condition of the signal received from the physiological device (4) The notice of the (4) notice, and also because of the network connected by the computer device, the physiological monitoring device can also be: special u, § Hai servo system can also return the results to the computer device, And provide for use in addition, when When the battery included in the main body is a rechargeable battery, the connection may include a pair of corresponding charging interfaces, so that the first side and the turning transfer unit are combined with each other. — through an additional charging device. 'Connecting the wiring' to complete the charging process, no need to be, therefore, in such an embodiment, on the one hand, between the squama and the squad, the monitoring device can receive wireless transmission from the physiological monitor. n', ^ 玄 wireless receiving 16 1331027 to ==^ class transmission unit _ joint mode, _, can choose two states / outside punishment ° to achieve 'hundred first' as shown in Figure 9, the body and the The combination of wireless reception and j-eye cooperation is combined, and further, as in the 10th
^ ^ 湘—連接線而達成相互結合,另外,如第7B 圖所不,赫之間也是可以利用連接器而作為-連接媒介。不過,同樣的, = 之用,並不因此而限制本發明,此外,無論是以何種 輸内容以及方式都H差異僅在結構,因此, 之後的敘述即不特別加以區別。 1 另Λ’齡糾狀制魏單元之間的相讀齡會包括一^ ^ Xiang - the connection line to achieve mutual integration, in addition, as shown in Figure 7B, it is also possible to use the connector as a connection medium. However, the same, = use does not limit the present invention, and the H difference is only in the structure regardless of the content and manner of the input. Therefore, the following description is not particularly distinguished. 1 Λ The age of the reading unit between the age-changing system will include one
的内容係包含了ro辨識、裝置奴、訊號傳遞等 至於该貢料交換的達成則是藉由分別所具有的—對資料傳 ==丄在開始進行測量前,該本體與該無線收發器之間的設定只需 =己Γ是插合、連接器、或是連接線相連,就可以輕易完成 才互-對例如’献通訊頻道,相顯識等,崎兩者分離之後,該益線 可明為該相互配對而決定要接收何者所發射的信號,亦即,不接 又付配對之裝置所發送的錢,因此,該錄收發器就不會浪費時間在 ==一健號是必須被接收,以及哪—個信號是Μ要被接收,當然 力也因此可以獲得節省。 电 另:較具優勢地是’該無線收發器加以實施為可以_與多個生理監測 ,置進行通訊’以使得僅需將需要進行信號接收的多個本體分別完成盘^ 線收發15之連接,柯«資/锻換及產生晴,如此-來,該無線收柯 就仍然可以清楚地知道要触哪些生理㈣裝置所傳送驗號。χ。 不過’在需要使用多個根據本發明之生理監測裝置,例如,醫院 ,多個病人朗同—個鱗收發器,或是同-個使用者身上的多個不同生理 監測裝f共㈣—個無線收發關情況下,根據本發_該無線收發器也可 ^加以提供為另—種,如第n ®所示,可以同時插接多個生理監測裝置的 1構形式’亦即,-(個無線收發器_)對多(個生理監測裝置的 式。 多個過一充電介面⑴0,該無線收發器丨100係可以單純作為 生皿峨置10的充電裝置,或者,二者擇-地’透過連接至一電腦 17 1331027 裝置的一通訊介面1120,該無線收發器1】00就可以同時進行多個生理監測 裝置10的資料交換以及充電,亦即,在使用該通訊介面112〇的情形下,使 用者只需在該等生理監測裝置10閒置時,將其插人連接至電腦^置的該無 線收發器_之中’前料交換以及充電就會同時進行,而在需要使用^ 生理監測裝置10時,只需直接使用抽出的生理監測裝置1〇,無須再執行= 辨識等操作,因為在充電的同時,資料交換也已經執行完成。不過,_地, 第11圖所顯示之該無線收發器的外型乃是舉例之用,亦可以實施為其他 行的形式。The content includes the ro identification, the device slave, the signal transmission, etc. As for the achievement of the tributary exchange, the body and the wireless transceiver are respectively used before the measurement is started by using the data transmission ==丄The setting between the two is only if the plug-in, the connector, or the connecting line are connected, and it can be easily completed. For example, the communication channel, the phase identification, etc., after the separation of the two, the benefit line can be It is clear that the pairing determines the signal to be received, that is, the money sent by the device that is not connected and paid. Therefore, the transceiver does not waste time. == A health key must be Receive, and which signal is to be received, of course, the power can also be saved. Electrically another: It is more advantageous that 'the wireless transceiver is implemented to enable communication with multiple physiological monitoring, so that only a plurality of bodies that need to receive signals are required to complete the connection of the disk transceiver 15 respectively. , Ke « capital / forging and producing clear, so - come, the wireless receiving Ke can still clearly know which physiological (4) device to send the inspection number. Hey. However, 'the need to use a plurality of physiological monitoring devices according to the present invention, for example, a hospital, a plurality of patients, a scaly transceiver, or a plurality of different physiological monitoring devices on the same user (four) - In the case of wireless transceiving, according to the present invention, the wireless transceiver can also be provided as another type, as shown in the nth, it can simultaneously insert a 1-configuration form of a plurality of physiological monitoring devices, that is, - ( Wireless transceivers _) many (a type of physiological monitoring device. Multiple over one charging interface (1) 0, the wireless transceiver 丨 100 can be used simply as a charging device for the raw device 10, or alternatively By connecting to a communication interface 1120 of a computer 17 1331027 device, the wireless transceiver 1 can perform data exchange and charging of the plurality of physiological monitoring devices 10 at the same time, that is, when the communication interface 112 is used. Then, when the physiological monitoring device 10 is idle, the user only needs to plug in the connection to the wireless transceiver of the computer, and the pre-material exchange and charging will be performed simultaneously, and the physiological need is used. Monitoring device At 10 o'clock, it is only necessary to directly use the extracted physiological monitoring device, and there is no need to perform the operation such as identification, because the data exchange has been completed while charging. However, the radio transmission and reception shown in Fig. 11 is completed. The appearance of the device is for example, and can also be implemented in other lines.
當然,上述該無線收發器透過充電介面所完成的充電程序,也直接加以 5又计為是透過該無線收發器的該通訊介面而加以達成,亦即,省略該充電介 面,該充電裎序所需之電力就透過該通訊介面而提供自該電腦裝置,如此二 來,根據本發明的該生理監測裝置就可以輕易地利用現有的裝置而完成充 電,至於該通訊介面則可以是,但不限於,USB,1394,UART,spi,或是 任何有線的通訊介面等,完全視需要而定。 再者,根據本發明的該無線收發器,也可以加以實施為如第12圖所示的 可攜式無線操作裝置1200 ’進而構成另一種生理監測系統的實施例,其中, 该生理監職置同樣地會包括,於該本體⑴之中,—無線收發介面以及— 接觸傳輸介面,以及-貼_片,貼附於使用者之皮膚表面,並藉由與該本 體^合而支雜賴,且射赋無義賊置·,_於上述的該無線 收發器’亦會包括-無線收發介面以及—可與該本體之該接觸傳輸介面相結 合的接觸傳輸單元。 在此實她方式之中’ -方面,該可攜式無線操作裝置與該生理監測裝置 =間^以透過雜·發介面而進行無_生理信號溝通,亦即,該可攜式 …、線知作裝Ϊ乃會接收無線傳輸自該生理監測裝置的信號,以及,另一方 兩者之卩她可以分财過該躺傳齡面以及該接觸雜單元而相互結 &、且完成彼此之間的傳輸。 曰所以’類似地,該接觸傳輸介面以及該接觸傳輸單元之間的結合方式也 可^利用至少二種方法而加以達成,包括,插合的方式,如第12圖所示, Μλλ益方式’如第7B圖所示’以及連接線連接方式,如第7A圖所示。相 關的敘述已於先前揭示,因此不再贅述。 18 1331027 輸:面:及該接觸傳輸單元之間的相 品、来 換包含D辨識、裝置設定、訊號傳遞等資料太 樣二同時與料交;’該可攜式無線操物也同 尚會,示裝置_ ===== 線操作裝置啊 Τ邊,心=:==f無線操作裝 裝置之信號^收自該等生理 可,無線操作裝置本身即可具有與網路 ^卜 "«tir:r1300 ^ ^ 綱上物示’進而通知相_人㈣量麵_的損失降到最 括,赋錄操健置也是可關用—舰介面聰,包 連接至—電月1 r、’,1日3'_ ’刺’以及任何有線的通訊介面等’而 行顯示、警二路;線等操ί述樣’利用該電腦裝置進 電該無線收發器的例子,當於該本體之中的電池係為一充電 單元亥接觸傳輸介面以及該可攜式無線操作裳置的該接觸傳輸 單元相ϋ人 對應的充電介面,以在該接觸傳輸介面以及該接觸傳輪 I i力,,纽,機觸收發= 置本身提供,但這通常會是該可攜式無線操作裝 • /、有充電電池而品要外接電源進行充電的時候。 之外需ΐΐ:意地是’射攜式無_健置除了本身可具有的記憶裝置 該外接接一5己憶體50,以因應更多的紀錄需求,而為了方便使用者, 1331027 另須注意的是’雖然第12圖以及第13圖所 受限於此,其亦可以是手錶式1400,如第14圖所if,細M並不 隨身:的形式,例如,手機,-等完二戴式,或是其他可 路:路,如第15圖所示,而該網 ,置與該無線收發器及顧可攜間 =生理制裝置與哪—個無魏發器輯 = =就:;=::=,再‘ 監看卿處理姉主動通知;;3二而= 服f則是可以從事即時 Γ^ΐ中Γ時網路生理監測。此外,透過如此的生理監測網ί = _、及電鮮署傳給該可攜式無線操作裝置 也使整個生二==㈣綱爾㈣峨_足, 發明則是要討論另一種生理監測網路的實施方式。 監測配置中,多個本體的財之一係加以實施為一主 =::=r_一個生理監測裝,= 而在如此的實施方式之中,藉由該等本體中所具有mm。,, 相餘本體所屬之生理監測裝置所測得的生理信號就會無祕發送至該^ 20 1331027 控本體’之後’社控本體再將所接收的生理信號傳輸至—外 而言,個人電腦、筆記型電腦、舰、手機、或任何其他具無線_ = 如,也可妓树贱祕提及_絲錄器、财私無^ 或者,另-種情形也可以是,多個剩餘的本體之間相互有 個本體與該主控本體之間進行無線通信。如關樣也可以達到相同的 而在如此的紐赋之下,若是該等核絲以實料需㈣ 進仃接觸而達成貢料交換時’則由於僅該主控本體需要與外部的裝補 應的無線信號傳輸,因此上述所提及之接觸配對將可以僅由該主控^ 行。不過,當然也是可以所有的本體皆執行與該外部裝置間的資料^換,, ======= 軟體來達成配對設定)。 _ Μ 另外’在此控制模式之下,除了上述的無線傳輸規劃之外,該主控本體 還g具有同步化其他本體的能力。該同步化包括了:控制、設定、起始、社 束^及貢料傳輸等,且其中,該主控本體還可以藉由其上增設的一操作^ 面及』不裝置而達成該同步化,仙此,義者可以藉由控主 體而輕易地同時控制其他的本體,同時監控的目標輕易達成。而除了藉由 1 該主控本社設頭作介_方絲軸_t操控之外㈣魅^ 乃會直接與-外職置進行触,因此,也可_ ^端 W、以該卜部裝置將指令傳送至該主控 本體以及社財體騎其他榻發⑽純 於使用者身上之生理監測裝㈣麟網路«達成。 碰所有貼附 盤地=此的方式係相當適合於醫院、或是居家的生理監測。當於 =====置將可以直接是(、或是先透過該無線收發器而連接 者可以是,站的電腦、甚至可以是醫院的舰系統,或 同時控制多二身攜帶之根據本發明的該可攜式無線操作裝置,以 :二 身上的主控本體’進而達成㈣的監控。rfij這對於需要 長犄間進仃生理監測的情形將是特別具有優勢。 、 過二===:=可=(、或先透 獲的=該記憶體,所接收的生理信號將可以 中’使用者就可以直接帶著該主控棒 ==:=受限於醫院的設備及時間 «有上不述同的的式除了加以實施為如第16圖的情形之外,其於型態上還可 舉例^,除了每個本體皆利用貼附貼片而貼附 17Β > ,元件所取代,例如,一帶:腕以=在==,被 其於使_二 感測器加以設置在指尖時,就二舉=言,當血氧 的肌電或位移感測器也可以利用環繞:二 電感測器同樣可以利用環繞頭部的帶體而加以實施。一7"或者,腦 根據本發明_生找職置巧叫#_^=;=卜£;= 22 1331027 置’例如,心'電偵測,血氧偵測,肌電偵測等,因此,當 監測之需求時,例如,進行多重睡眠電圖偵測時 要^理 樣背負-台佔據相當體積、且連接著複雜電極線的主機:==術- ,月的輕巧本體貼附、依附於身上的各個監測部位,然 體之間的信號整合,例如,統一由根據本發明的一個益線收曰夕本 作較進行接收,或是藉由本體之間的主控模式而:L里3 =正合及傳群,自餘賴於多重生理監測 =虎 在it接線的複雜度上也大大的降低,同時,更改,二斤乂不僅輕便, 的移:問題’而且也讓居家化的多重生理監測更容易‘ 無線通訊蝴除了透過 接收之外,兩者之間也會事先進行一暫號的^與 接線連接),以達成兩者間包括ID辨識等 “=連 以順利進行,且在這之中,多個本體之間還可線傳輸可 至該無線收發器/可攜式無線操作裝置、或 進行整合。 置、先行以主控模式 此外’該無線收發⑽可以透過—通訊細而 達成有關生理信號之顯示以及連接網路 取自裝置,進而 操作袭置則是打接連接至一網路、或是透’而該可攜式無線 進而連接至舰系‘統。此外,當該生理° 6 @、而連接至一網路’ 無線收發器/該可攜式無線操作裝置也‘可3/;;備_的mi時: 論是對醫院、或是居家使㈣言,傳統生雜職’無 電極%=::r: 可以沿用既有的電極線,無須另外添購,再加 1 &而。’就 廉’體積小巧,且於操作上可以透過電腦裝置靜2本體的成本低 完成,因此,對於居家使用也相當適合再式無祕作裝置來 都將可以達顺所未有的效^ T 4疋社£居豕看遵’ 23 【圖式簡單說明】 明之生理監測裝置的内部電路配置示意圖; 貼附貼片之間的配1^式 據本發明之生理監測裝置所包含之本體與 =圖:其係顯示根據本發明之生理監測裝置所包含之本體的外部結構示意 關 ίΐ圖:其係顯示根據本發明之生理監測裝置所包含之二本體之間的配置 =5圖.其係顯不根據本發明之生 ^本體與多個附加單㈣—舉例配置=用冰丁十-導程心電測量 時根據本發明之生理監職置用以進行-十二導程心電, 予本體與多個附加單元的一另一舉例配置圖; 雜。電測罝 其==連=示根據本發明之生理監測裝置所包含之本體與 爾她咖崎崎之内部電路 S測發明之-包含-生—-無線收發器的 =0另®•連根據本發明之該無線收發器與該無線生理監測裝置之間 =11圖··其係顯示根據本發明之該無線收發器的另 第圖:其係顯示根據本發 、-構不思圖’ 作裝置的-另-生理監⑽、統的—示^生I猶置叹—可赋無線操 =η圖.其細示第u圖之該生理監啦統的實施圖; 14圖.其係顯示根據本發明之實施為一 與該生理監測裝置之間的連接示意圖; 7式的可攜式無線操作裝置 第15圖.其係顯示根據本發明之—生理監測網路的示意圖. ,16圖.其係顯示根據本發明之生理監測袈置加以 有-主控本體的實施示意圖;以及 貫也為夕個本體時,具 第W圖至第ΠΒ圖··其係顯示根據本發明之生理監㈣置加以實施為多 24 1331027 個本體時,具有一主控本體且採用依附元件的實施示意圖。Of course, the charging procedure performed by the wireless transceiver through the charging interface is also directly calculated to be achieved through the communication interface of the wireless transceiver, that is, the charging interface is omitted, and the charging sequence is omitted. The required power is supplied from the computer device through the communication interface. In this way, the physiological monitoring device according to the present invention can easily perform charging by using the existing device, and the communication interface can be, but is not limited to, , USB, 1394, UART, spi, or any wired communication interface, etc., depending on the needs. Furthermore, the wireless transceiver according to the present invention may also be implemented as an embodiment of the portable wireless operation device 1200' shown in FIG. 12 to constitute another physiological monitoring system, wherein the physiological monitoring system Similarly, in the body (1), the wireless transceiver interface and the contact transmission interface, and the affixed film are attached to the skin surface of the user, and are supported by the body. And the wireless transceiver of the above-mentioned wireless transceivers will also include a wireless transceiver interface and a contact transmission unit that can be combined with the contact transmission interface of the body. In this aspect, the portable wireless operating device and the physiological monitoring device communicate with each other through the interfering interface, that is, the portable cable. Knowing that the device will receive the signal transmitted wirelessly from the physiological monitoring device, and after the other two, she can divide the lying age and the contact cell to join each other and complete each other. Transfer between.曰 So similarly, the contact transmission interface and the combination between the contact transmission units can also be achieved by using at least two methods, including the manner of insertion, as shown in Fig. 12, Μλλ益方式' As shown in Figure 7B' and the connection method of the connection line, as shown in Figure 7A. Related narratives have been previously disclosed and will not be described again. 18 1331027 Loss: Face: and the phase between the contact transmission unit, including the D identification, device settings, signal transmission and other information is too sampled at the same time and material exchange; 'The portable wireless device is also the same , display device _ ===== line operation device ah, heart =: == f wireless operation device signal ^ received from these physiology, wireless operation device itself can have and network ^ «tir:r1300 ^ ^ The outline of the object' and then inform the phase _ people (four) the amount of face _ loss to the most enclosed, the assignment of health is also can be used - ship interface Cong, package connected to - electricity month 1 r, ', 1st 3'_ 'thorn' and any wired communication interface, etc. 'show and police two roads; line and other operations' use of the computer device to enter the wireless transceiver example, when the body The battery is a charging unit and a charging interface of the contact transmission unit of the portable wireless operation device, so as to contact the transmission interface and the contact transmitting wheel I i, , New Zealand, machine touch transceiver = set itself, but this will usually be the portable wireless operating device • / Charging the battery to an external power supply when the product is charged. In addition, the intention is that the 'sport-loaded non-health device can be connected to a memory device, which can be connected to a 5 memory unit 50, in order to meet more record requirements, and for the convenience of users, 1331027 Yes, although it is limited to FIG. 12 and FIG. 13 , it can also be a watch type 1400. As shown in FIG. 14 , the thin M does not follow the form: for example, a mobile phone, and the like, Or other roads: road, as shown in Figure 15, and the network, set with the wireless transceiver and Gu portable room = physiological device and which - no Weifa device series = = on:; =::= , then 'monitoring the Secretary to handle the proactive notification; 3 2 and = service f is the ability to engage in real-time Γ ΐ ΐ 网路 网路 网路 网路 网路 网路 网路 网路 网路 网路 网路 网路 网路 网路 网路 网路In addition, through the physiological monitoring network ί = _, and the transmission of the portable wireless operating device by the DSD, the whole life is two == (four) Ganger (four) 峨 _ feet, the invention is to discuss another physiological monitoring network The way the road is implemented. In the monitoring configuration, one of the plurality of ontology is implemented as a master =::=r_a physiological monitoring device, = and in such an embodiment, by having mm in the body. , the physiological signal measured by the physiological monitoring device to which the residual body belongs is sent to the ^20 1331027 control body 'after the 'social control body' and then transmits the received physiological signal to the outside - the personal computer , notebook computer, ship, mobile phone, or any other with wireless _ = If, you can also mention 妓 贱 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ There is a body between each other and the main control body for wireless communication. If the sample can also reach the same, and under such a new bond, if the core wire needs to be exchanged (4) to achieve the quarantine exchange, then only the main control body needs to be externally loaded. The wireless signal transmission should be such that the contact pairing mentioned above will be possible only by the master. However, of course, all the entities can perform the data exchange with the external device, and ======= software to achieve the pairing setting). _ Μ In addition, under this control mode, in addition to the wireless transmission plan described above, the master body also has the ability to synchronize other ontology. The synchronization includes: control, setting, starting, community, and tributary transmission, and wherein the main control body can also achieve the synchronization by using an operation surface and a device that are not added. In this way, the righteous can easily control other ontology at the same time by controlling the subject, and the target of monitoring is easily achieved. In addition to the control of the main body of the company, the _ square wire _t control (four) charm ^ will directly touch the - external position, therefore, can also _ ^ end W, with the device The instruction is transmitted to the main control body and the social property body to ride other couch hair (10) purely on the user's physiological monitoring equipment (four) Lin network «achievement. Touch all the attachments = this way is quite suitable for hospitals, or physiological monitoring at home. When ===== will be directly (or first through the wireless transceiver and the linker can be, the station's computer, or even the hospital's ship system, or at the same time control the two-person carry according to this The portable wireless operating device of the invention is characterized in that: the main body of the two bodies is in turn to achieve (four) monitoring. The rfij is particularly advantageous for situations in which physiological monitoring is required for long daytime advancement. := can = (, or first pass the = the memory, the received physiological signal will be available in the 'user can directly carry the master control bar ==: = limited by the hospital's equipment and time « In addition to the case where the above-mentioned equation is implemented as in the case of Fig. 16, it can be exemplified in the form, except that each body is attached with a patch and attached with 17 Β > For example, a band: wrist with = in ==, when it is set to the tip of the sensor, at the fingertips, when the blood oxygen or electromyography or displacement sensor can also use the surround: The second inductive detector can also be implemented by using the strip around the head. A 7" or, brain root According to the present invention, the search for the job is called #_^=;=卜£;= 22 1331027, for example, 'heart' electrical detection, blood oxygen detection, myoelectric detection, etc., therefore, when monitoring the demand For example, when performing multiple sleep electrogram detection, it is necessary to take care of the negative load - the host that occupies a considerable volume and is connected with a complex electrode line: == surgery -, the light body attachment of the month, and the various monitoring parts attached to the body The signal integration between the media, for example, is unified by the receiving of a benefit line according to the present invention, or by the master mode between the entities: L 3 = positive and pass Group, self-reliant on multiple physiological monitoring = the complexity of the tiger's wiring in it is also greatly reduced, at the same time, the change, the two pounds are not only lightweight, the shift: the problem 'and also makes the home multiple physiological monitoring easier' In addition to receiving the wireless communication, the wireless communication will also be connected with a temporary number and a wiring connection between the two to achieve the ID identification, etc., in order to proceed smoothly, and among them, The body can also be wired to the wireless transceiver/portable wireless operation Device, or integration. Set, first in the master mode, 'The wireless transceiver (10) can be through the communication to achieve the display of physiological signals and the connection network is taken from the device, and then the operation is connected to the connection The network, or through the 'portable wireless and then connected to the ship' system. In addition, when the physiological ° 6 @, and connected to a network 'wireless transceiver / the portable wireless operating device also ' Can be 3 /;; prepared _ mi: On the hospital, or at home (four), traditional students miscellaneous 'electrode%=::r: can use the existing electrode line, no additional purchase, and then Plus 1 & and 'Lianlian' is small in size, and can be operated at a low cost through the computer device. Therefore, it is quite suitable for home use and there is no secret device. The effect of the invention is not as follows: The ontology and the included figure: the system is displayed according to The external structure of the body included in the physiological monitoring device of the present invention is shown in the figure: it shows the configuration between the two bodies included in the physiological monitoring device according to the present invention=5. It is not according to the present invention. ^Ontology and a plurality of additional orders (four) - example configuration = when using the ice-drain-guided ECG measurement, the physiological supervisory position according to the present invention is used to perform - twelve-lead ECG, to the body and a plurality of additional units An alternative example configuration diagram; Electrical measurement 罝 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = Between the wireless transceiver of the present invention and the wireless physiological monitoring device, FIG. 11 shows another diagram of the wireless transceiver according to the present invention: it is displayed according to the present invention. The device-other-physiological supervision (10), the system--showing the life I still sigh--can be assigned to the wireless operation = η diagram. It shows the implementation diagram of the physiological monitoring system of the u-figure; The embodiment of the present invention is a schematic diagram of the connection between the physiological monitoring device and the physiological monitoring device of the seventh embodiment. FIG. 15 is a schematic diagram showing a physiological monitoring network according to the present invention. The system shows a schematic diagram of the implementation of the active-maintaining body according to the physiological monitoring device of the present invention; and when the body is also the same as the body, the figure W to the figure shows the physiological monitoring according to the present invention (4) When implemented as more than 24 1331027 ontology, it has a master body and is attached Member schematic embodiment.
【主要元件符號說明】 10 本體 10, 本體 10” 本體 10”, 本體 101 連接介面 10Γ 連接介面 102 開關 103 顯示裝置 104 按紐 105 電源輸入口 106 電源輸出口 107 延伸連接裝置 111 處理器 112 電路配置 113 電池 114 無線收發介面 115 接觸傳輸介面 1000 無線收發器 1001 接觸傳輸單元 1002 通訊介面 1100 無線收發器 1110 充電介面 1120 通訊介面 1200 可攜式無線操作裝置 1201 顯示裝置 1202 通訊介面 1300 伺服系統 1400 手錶 1600 主控本體 1601 多重生理監測裝置 20 貼附貼片 20’ 貼附貼片 30 電極或感測器 31 連接線 300 電極或感測器 41 連接線 50 記憶體 811 紐知結構 900 無線收發器 901 接觸傳輸單元 902 通訊介面 25[Main component symbol description] 10 body 10, body 10" body 10", body 101 connection interface 10 Γ connection interface 102 switch 103 display device 104 button 105 power input port 106 power output port 107 extension connection device 111 processor 112 circuit configuration 113 Battery 114 Wireless Transceiver Interface 115 Contact Transmitter Interface 1000 Wireless Transceiver 1001 Contact Transmitter Unit 1002 Communication Interface 1100 Wireless Transceiver 1110 Charging Interface 1120 Communication Interface 1200 Portable Wireless Operating Device 1201 Display Device 1202 Communication Interface 1300 Servo System 1400 Watch 1600 Main control body 1601 Multiple physiological monitoring device 20 Attachment patch 20' Attachment patch 30 Electrode or sensor 31 Connection line 300 Electrode or sensor 41 Connection line 50 Memory 811 New structure 900 Wireless transceiver 901 Contact Transmission unit 902 communication interface 25