200929085 九、發明說明: 【發明所屬之技術領域】 • 本創作係有關於一種具設定及收發儲存無線電子感測器資料 • 的系統裝置’其使用於設定各式特定無線電子感測器上。而各 式特定功能的無線電子感測器逐漸廣泛應用於各種設施、物 件、容器或管槽上,甚至也應用於追蹤偵測動物或某階段時個 人的生理狀態上,如偵測油槽、導油管線或導氣管線、氣灌體 ❹ 容器上的壓力流量溫度或生物體上溫度或設施中之某氣體含 量…等;現今尤以目前強調駕駛安全的汽車胎壓、胎溫無線電 子感測器(TPMS)為常見代表。 【先前技術】 現今科技進步以無線電子感測器取代傳統的油槽、導油管線或 導氣管線、氣灌體容器之各種配置密集交錯的監測網路線。 而無線電子感測器將資料狀況傳輸至控管電腦中心再予以監 Ο 測但因通常無線電子感測器均有獨立的數位識別碼(id)以便 識別受職的區隔,但在無線電子細^新裝設置人各受測物 時或更替換新時,當因複數以上往往因再辨識其數位識別碼 (ID)形成錯亂,若以原登錄在外部之數位識別碼(ID)資料因故 遺失或要賴鱗電子❹m位置時,就會辦纽混亂而造 成維護問題。 以汽車胎壓、胎溫之無線電子感測器(TpMS)的爲例,一輛輪車 需要4個無線電子細彳傳感n…輛大型卡車更需要6至 5 200929085 個甚至更多個無線電子感測器,在新安裝無線電子感測器時或 輪胎對調時’往往很困難在主機上收發後確認或再辨識其數位 • 識別碼(ID)及代表輪胎位址之相對位置等關係,若數位識別碼 • (ID)遺失或要變換無線電子感測器位置時就會造成資訊管理 問’若為辨識其數位識別碼(id)及代表輪胎位址之相對位置 等關係而採取使用輪胎洩氣和充氣觀看胎壓的變化來設定新 的位置’更費時又費力。 ❹ 另習用—種名稱:具無線設定功能的輪胎檢測系統(中華民國 申請發明之案號:092126594;公告/公開號2〇〇5121〇3);依其内 容所述係為:一種具無線設定功能的輪胎檢測系統,係包含有 具有低頻信號收發器的無線設定器及複數組胎壓檢測器(即 無線電子感測器),各胎壓檢測器係由一設有一重置端的檢測 暨信號處理單元、一低頻信號收發器及一重置開關組成,其中 重置開關連接至該檢測暨信號處理單元的重置端及低頻信號 ❹ 收發S元間。如其圖文所示當其無線設定器發射出設定信號至 特定胎壓檢測器時,該胎壓檢測器會進行信號重置並重新設定 位置編碼’亦即表示其無線設定器為單向觸動胎壓檢測器功能 的6又疋袭置’在靠近單一輪胎時觸動胎壓檢測器後,由胎壓檢 測器内之射頻(即)將其數位識別碼(ID)自行傳送至主機;而非 本創作之系統裝置可以低頻訊號喚醒無線電子感測器,再由無 線電子感測器以高頻訊號傳回數位識別碼(ID)及偵測資料,而 本創作之系統裝置以高頻收發模組與更多數量及領域的無線 6 200929085 電子感測器做雙向互動’再傳送主機或儲存。 【發明内容】 . 本創作針對上述習用技術所存在之缺失,主要目的在於提供一 . 種具設定及收發儲存無線電子感測器資料的系統裝置,其通過 對裝置内合理没計及配置,可增強提高系統的無線收發能力, 正確地獲取辨識無線電子感測器其數位識別碼(id)及資訊。 為實現上述之目的,本實用新型本創作採取如下技術方案: ❹ 一種具設定及收發儲存無線電子感測器資料的系統裝置(簡稱: 設定系統裝置),其包括: 至少有一組微處理器(MCU)、低頻(LOW FREQUENCY)發射模 組、咼頻(HIGH FREQUENCY)收發模組及指令輸入電路、顯示輸 出電路和供電模組等; 其中,所述設定系統裝置為獲取受測物體上各個無線電子感測 器之數位識別碼(ID)或資訊,裝置上之低頻發射模組可依受測 φ 物體上各個傳感器之限制距離設計。 所述設定系統裝置先依序靠近各個無線電子感測器並對其發 射喚醒訊號且執行設定,受到喚醒後之無線電子感測器再將數 位識別碼(ID)或資訊以其無線高頻發射模組傳送回上述裝 置,而裝置上之高頻接收模組則予以接收並將其數位識別碼 (ID)或資訊送至裝置内之微處理器解密處理並儲存。 靠近喚醒各個無線電子感測器並予以收發後之數位識別碼(ID) 或資訊後再經微處理器(MCU)處理暫存,可再循序將其他位置 7 200929085 的各個無線電子感測器再予重覆執行動作,最後彙集複數量之 ”感測器其數位識別碼⑽或資訊後,再由使用者操作 . 本设疋系統裝置内之高頻發射模組以無線發射傳送所需其資 料之無線電子制^機齡纽或其他管理監測主機系統 (在本創作敘述上兩者皆統稱為主機系統)。 所述設定系統裝置經若傳送數位識別碼(ID)至無線電子感測 器域顯示纽處理後,域系齡獲取得知各她線電子感 ❹ 測11之触識觸⑽她後’便轉各個絲電子感測器在 _物體後’所產生資料在傳送至主機時,主機系統並得以辨 識正確位址並顯示各受測物體位置上之資料。 所述設定系統裝置若是選擇執行彙集各個無線電子感測器在 侧物體後產生資料,再將暫存後傳以無線傳送方式將資料傳 遞至主機或其他工作處理站. 本創作之設定系絲置與·技狀概,其有益效果如下: 卜藉由上述裝置具解決無線電子感卿裝人受職後以其襄 錢取各無線電?感卿之數位獅碼(〖D)或資訊,主機系統 並得以辨識正確位址並顯示各受測物體位置上之資料。 2、 通過上述裝置可具機動性的將受測物後以其裝置獲取各無 線電子感靡之資赠,縣彙##赠送錄軸之主機系、 統或管理中心系統,克服遠距或地形及設施的傳訊舰。、 3. 通過上述裝置可錢雛姐各無線電預,並趨動 運作侧㈣誠生資料,再將傳_本裝置,使無線電 子感測器平時皆處睡眠狀熊之省電模式,延長無線電子'感 8 200929085 【實施方式】 下面結合附圖與具體實施方式對本實用新型本創作做進一步 . 描述。 清參閲第一圖係本創作之電路方塊圖不意圖,揭示—無線設定 系統裝置與一組無線電子感測器及系統主機之無線感測收發 系統工作原理示意圖。 本創作係提供一種具設定及收發儲存無線電子感測器資料的 ❹ 系統裝置(簡稱:設定系統裝置10),主要由一組電子無線控制 電路板集成的設定系統裝置10,裝置上包括至少有一組微處 理器(MCU)l卜低頻(LOW FREQUENCY)發射模組12、高頻(HIGH FREQUENCY)收發模組13、指令輸入(Input)電路14、顯示輸出 電路15及供電模組16等。 上述裝置内之微處理器11用以控制及管理所有週邊模組設 備,進行輸入輸出及收發、運算及控制迴路等工作。 〇 上述裝置内之低頻(LOWFREQUENCY)發射模組12内設有低頻發 射電路121及低頻線圈122,其中該低頻線圈122可為一個共 振頻率為低頻之繞線式電感器而低頻發射電路121包含有共 振迴路、脈波迴路’而共振迴路可為調幅倍壓迴路以增加低頻 輻射強度’以達到各設計規格理想感應的限定距離範圍。 上述裝置内之高頻(HIGH FREQUENCY)收發模組13内設有高頻 接收電路131及高頻發射電路132及高頻天線133;該高頻 (HIGH FREQUENCY)接收電路131包含有一組高頻接收器、濾 波器;§玄尚頻(HIGH FREQUENCY)發射電路132包含有一組高頻 9 200929085 發射器,而該高頻天線133可為任一金屬導體或電路板天線 (PCB ANTENNA),並由裝置上的微處理器(腳)11控制迴路。 該高頻(HIGH FREQUENCY)接收電路131包含有一組高頻接收器 1311及該高頻(HIGH FREQUENCY)發射電路132包含有一組高 頻發射器1321,其兩者之高頻發射器可為調頻(FSK)或調幅 (ASK)傳送或接收。 該高頻(HIGH FREQUENCY)接收電路131及高頻(jjigH FREQUENCY)發射電路 132 可為射頻(Radio Frequency; RF)接 收電路及射頻(Radio Frequency; RF)發射電路。 上述裝置内之指令輸入(Input)電路14其加設一組指令輸入 裝置140或連接外部設置的指令輸入裝置14〇,該指令輸入裝 置140可以直接操作相關指令藉並通過指令輸入(I_t)電路 14與裝置内微處理器11電性連接處理執行指令,用來選擇所 欲設定和偵測之無線電子感測器20及功能操作,而該指令輸 入裝置140其可為按鍵模組(KEYPAD)或以聲控或紅外線、藍 牙…等設置來操作。 上述裝置内之顯示輸出(Output)電路15,可設一組顯示輸出 裝置150或連接外部設置的顯示輸出裝置15〇,該顯示輸出裝 置150其可與顯示輸出(Output)電路15電性連接並通過與裝 置内微處理器11連接處理執行指令,用來顯示功能操作及收 發訊號狀況,而該顯示輸出裝置150其可為顯示銀幕(LCD)圖 像來顯示狀態或以電子燈元件(LED)的明暗色系訊號顯示狀 200929085 態。 上述裝置内之供電模組16用以導入及提供所有電路需要的電 能,,可設一組供應電源裝置160或連接外部設置的顯示輪出 ' 裝置16〇,為直接或間接導入電池/電能收集與供應。 上述裝置所提應用的對象為無線電子感測器20,該無線電子 感測器20是一組電子無線控制電路板集成的裝置,該無線電 子感測器20裝置上微處理器(MCU)21微處理器用以管理所有 β 週邊設備,進行例如:壓力、溫度、加速度和電池電壓的測量 中之補償、校準等工作,以及射頻(Radio Frequency; RF)發 射控制和電源管理;檢測傳感器22用以測量所需監測容器戋 管槽内部狀況;低頻(LOWFREQUENCY)接收模組23、高頻(HIGH FREQUENCY)發射模組24 ;所述高頻(HIGH FREQUENCY)發射模 組24用以將檢測到的例如:壓力、溫度、加速度和電池電壓··. 等資訊用無線射頻(RF)信號發射出去,以達到偵測狀況及傳送 ❹ 負料之效能’並將得到的偵測資訊發送到主機接收器,或本裝 置再予以處理或顯示;供電模組25用以提供所有電路需要的 電能,為直接或間接導入電池/電能收集與供應。 設定系統裝置10為獲取受測物體上各個無線電子感測器2〇之 數位識別碼(ID)或資訊而其設定動作及運作方式如下: 在設定系統裝置10及無線電子感測器2〇兩者之低頻收發有效 範圍内,依序靠近各個受測物上無線電子感測器2〇,使用者操 作設定系統裝置10内之指令輸入電路14對其發射喚醒訊號且 200929085 執行設定; 當没定系統裝置10以低頻發射模組12内之低頻發射電路121 ‘ 經由低頻線圈122傳送低頻(LF)訊號901 ’發出並去搜尋選定 • 距離内之無線電子感測器20; 該無線電子感測器20之低頻接收模組23經由其低頻線圈232 傳入低頻接收電路231,感應到設定系統裝置1〇之發出喚醒 低頻訊號101,喚醒後之該檢測功能無線電子感測器2〇立即 ❹ 從其高頻發射模組24内部之高頻發射電路241透過高頻天線 242將其内部數位識別碼(id)或其它檢測到的資料以高頻(HF) 訊號902傳送回應本設定系統裝置1〇,並經由設定系統裝置 10内咼頻收發模組13從高頻天線133導引收到訊號入高頻接 收電路131;送至微處理器(MCU)11解密處理並予暫存於微處 理器(MCU)ll内之記憶體内或轉儲存於附設之記憶體I?内丨為 確定是否達成唤醒指令並收到該無線電子感測器2〇回應之訊 號,设定系統裝置10内的顯示輸出電路15將可回應顯示,而 ❹ 顯示輸出裝置150可以令燈之鴨或以®樣色料變化顯示 出實際狀態。 設定系統裝置10靠近唤醒各個無線電子感測器20並予以收發 後之編碼或資訊後再經微處理器(MCU)11處理暫存,可再循序 將其他位置的各個無線電子感測器20再予重覆執行動作,最 後彙集複數篁之傳感器其數位識別碼(id)或資訊後,再由使用 者按壓設定系統裝置1 〇内指令輸入電路14連接之指令輸入裝 置140予以操作,以設定系統裝置10内高頻收發模組13之高 12 200929085 頻發射電路132經高頻天線133將數位識別碼(id)或資訊以高 頻訊號904傳送至系統主機30或是以有線或無線資料傳輸9〇5 • 傳送資訊至遠端系統主機70。 • 所以,由上述設定系統裝置10之裝置及操作可達到以下目的: 1·以設定系統裝置1〇獲取各無線電子感測器20之數位識別碼 (ID)後’主機系統30得以經由設定系統裝置1〇獲得設定及辨 識各無線電子感測器20之數位識別碼(Π))及對照正確位址 象 後,在無線電子感測器20高頻幅射範圍内之主機系統洲,便 由各無線電子感測器20以高頻訊號904傳送至系統主機30 , 系統主機30得以名符其實的顯示各受測物體位址上之被偵測 後的正確資料與數據。 2·若無線電子感測器2〇因受地形限制或設置要求之而無法在 其尚頻幅射範圍内之主機系統3〇或不必要在附近設置主機系 、’克30時’ β又疋系統裝置1〇可藉由上述操作取並設定處理各無 線電子感測器20之數位識別碼(ID)及對照正確位址後,可具 機動性的操作直接獲資訊後設定系統裝置1〇自行顯示各受測 物體位址上之正確資料;或再將其彙集資訊以有線或無線資料 傳輸905傳送至遠端系統主機7〇,克服遠距或地形及設施的 傳訊侷限。通過上述裝置可具機動性喚醒各無線電子感測器 2〇,使無線電子感測器2〇平時皆處睡眠狀態之省電模式,可 延長無線電子感測|§ 20使用壽命。 清參閱第二圖及第三圖,第二圖係本創作之技術一實施例汽車 13 200929085 胎壓胎溫伯測器(TPMS)實際示意圖,揭示一無線設定系統裝置 與汽車及無線電子感測器、系統主機等產品形式外觀及運作關 係;第三圖係本創作之應用例外觀示意圖(一)。 • 第二®及第三®實施綱說明—種可實際細於四輪汽車輪 胎之無線電子感測器(TPMS)的設定系統裝置的範例;本創作應 用例四輪汽車TPMS設定系統裝置i〇A主應用於四輪汽車4〇之 輪胎上的無線電子感測器20及系統主機3〇。 ❹ 車廠專用型设定系統裝置主應用於新安裝或輪胎對調時甚至 是換新的無線電子感測器20時,四輪汽車TPMS設定系統裝置 10A上其指令輸入裝置140操作面板上具有傳送Qjpi〇aci)鍵 142、更新(CLR)鍵143及位址設定鍵組區141内的1411; 1412; 1413; 1414等各位址設定鍵;另顯示輸出裝置15〇有電源 (Power)顯示燈 152、指令(Command)顯示燈 153、傳送(Upload) 顯示燈154及位址顯示燈組區151内的各位址顯示燈1511、 1512、1513、1514。200929085 IX. INSTRUCTIONS: [Technical field to which the invention pertains] • The present invention relates to a system device for setting and transceiving wireless electronic sensor data, which is used to set various specific wireless electronic sensors. And various types of wireless electronic sensors with specific functions are gradually used in a variety of facilities, objects, containers or tube slots, and even used to track the physiological state of an individual at an animal or stage, such as detecting oil grooves and guides. Oil pipeline or gas pipeline, gas pressure vessel, pressure flow temperature on the vessel or temperature on the organism or a gas content in the facility, etc.; nowadays, the current tire pressure and tire temperature wireless electronic sensing are emphasized. The device (TPMS) is a common representative. [Prior Art] Today's technological advancement replaces the traditional oil tanks, oil-conducting pipelines or gas-conducting pipelines, gas-filled vessels, and various configurations of densely-disposed monitoring networks with wireless electronic sensors. The wireless electronic sensor transmits the data status to the control computer center and monitors it. However, because the wireless electronic sensor usually has an independent digital identification code (id) to identify the occupied segment, but in the wireless electronic When a new device is installed to set each object to be tested or replaced with a new one, when the number is more than the above, the digital identification code (ID) is often confused, and the digital identification code (ID) is externally registered. Therefore, if you lose or depend on the position of the scale electronic ❹m, it will cause confusion and cause maintenance problems. Take the example of a wireless electronic sensor (TpMS) for tire pressure and tire temperature. A wheeled vehicle needs 4 wireless electronic sensors. The large truck needs 6 to 5 200929085 or more wireless. Electronic sensors, when new wireless electronic sensors are installed or when the tires are adjusted, it is often difficult to confirm or re-identify the digits on the host after receiving and sending them. • The identification code (ID) and the relative position of the tire address. If the digital identification code (ID) is lost or the position of the wireless electronic sensor is to be changed, it will cause information management to use the tire if it is to identify its digital identification code (id) and the relative position of the tire address. Deflating and inflating to watch changes in tire pressure to set a new position 'is more time consuming and laborious. ❹ Another use-type name: tire detection system with wireless setting function (Case number of the Republic of China application for invention: 092126594; announcement / publication number 2〇〇5121〇3); according to its content is: a wireless setting The functional tire detection system comprises a wireless setter with a low frequency signal transceiver and a complex array of tire pressure detectors (ie, wireless electronic sensors), each of which has a detection and signal with a reset end. The processing unit is composed of a low frequency signal transceiver and a reset switch, wherein the reset switch is connected to the reset end of the detection and signal processing unit and the low frequency signal 收发 transceiver S element. As shown in the figure, when the wireless setter emits the setting signal to the specific tire pressure detector, the tire pressure detector performs signal reset and resets the position code', which means that its wireless setter is a one-way contact tire. The function of the pressure detector function is to transmit the digital identification code (ID) of the tire pressure detector to the host itself after the tire pressure detector is touched near the single tire; The system device can create a low-frequency signal to wake up the wireless electronic sensor, and then the wireless electronic sensor transmits the digital identification code (ID) and the detection data with the high-frequency signal, and the system device of the creation uses the high-frequency transceiver module. With more quantities and areas of wireless 6 200929085 electronic sensors do two-way interaction 're-transfer host or storage. SUMMARY OF THE INVENTION The present invention aims to provide a system device for setting and transmitting and storing wireless electronic sensor data, which is reasonably not included in the device. Enhance the wireless transceiver capability of the system, and correctly obtain the digital identification code (id) and information of the identification wireless electronic sensor. In order to achieve the above object, the present invention adopts the following technical solutions: 系统 A system device for setting and transmitting and storing wireless electronic sensor data (abbreviation: setting system device), comprising: at least one set of microprocessors ( MCU), low frequency (LOW FREQUENCY) transmitting module, frequency (HIGH FREQUENCY) transceiver module and command input circuit, display output circuit and power supply module, etc.; wherein the setting system device is to obtain each wireless on the measured object The digital identification code (ID) or information of the electronic sensor, the low-frequency transmitting module on the device can be designed according to the limit distance of each sensor on the measured φ object. The setting system device firstly approaches each wireless electronic sensor and transmits a wake-up signal and performs setting, and the wireless electronic sensor after the wake-up transmits the digital identification code (ID) or information with its wireless high frequency. The module transmits back to the device, and the high frequency receiving module on the device receives and transmits its digital identification code (ID) or information to the microprocessor in the device for decryption processing and storage. Close to the digital identification code (ID) or information that wakes up each wireless electronic sensor and sends it to the microprocessor (MCU) for processing, and then re-storing the wireless electronic sensors of other locations 7 200929085 Repeat the execution of the action, and finally collect the digital sensor (10) or information of the sensor in the complex quantity, and then operate by the user. The high-frequency transmitting module in the system device transmits the data required by wireless transmission. The wireless electronic system or other management monitoring host system (both of which are collectively referred to as the host system). The setting system device transmits a digital identification code (ID) to the wireless electronic sensor domain. After the display is processed, the domain age is obtained to know the electronic sense of each line. The touch of the touch is detected. (10) After the data is sent to the host, the data is sent to the host. The system is also able to identify the correct address and display the information on the position of each object to be measured. If the setting system device selects to execute the collection of each wireless electronic sensor to generate data after the side object, the system will be temporarily stored. After transmission, the data is transmitted to the host computer or other work processing station by wireless transmission. The setting of this creation is based on the technology and the technical effects. The beneficial effects are as follows: After that, the money is used to take the radio number of the lion code (〖D) or information, and the host system can identify the correct address and display the information on the position of each object. 2. The device can be maneuverable. After receiving the test object, the device will obtain the gift of each wireless electronic sensation. The county hui## gives the host system, system or management center system of the recording axis, and overcomes the distance or terrain and facilities of the communication ship. Through the above device, the younger sisters of the money can pre-empt, and move the operation side (four) Chengsheng data, and then pass the device, so that the wireless electronic sensor is usually in the sleep-like bear power-saving mode, extending the wireless electronic sense 8 200929085 [Embodiment] The present invention will be further described in conjunction with the drawings and the specific embodiments. The following is a schematic diagram of the circuit diagram of the present invention. A schematic diagram of the working principle of a wireless sensing transceiver system with a set of wireless electronic sensors and a system host. The present invention provides a system device (abbreviation: setting system device 10) with setting and transmitting and storing wireless electronic sensor data. The setting system device 10 is mainly composed of a set of electronic wireless control circuit boards, and the device comprises at least one set of microprocessor (MCU), a low frequency (LOW FREQUENCY) transmitting module 12, and a high frequency (HIGH FREQUENCY) transceiver module 13 The command input circuit 14 , the display output circuit 15 , the power supply module 16 , etc. The microprocessor 11 in the device is used to control and manage all peripheral module devices, and perform input, output, transmission and reception, calculation and control loops, and the like. The low frequency transmitting circuit 121 and the low frequency coil 122 are disposed in the low frequency (LOWFREQUENCY) transmitting module 12 in the above device, wherein the low frequency coil 122 can be a wound inductor with a low frequency and a low frequency transmitting circuit 121. Contains a resonant loop, a pulse circuit 'and a resonant loop can be an amplitude-modulated double-pressure loop to increase the low-frequency radiation intensity' to achieve various design specifications The range of defined distances for ideal sensing. The high frequency (HIGH FREQUENCY) transceiver module 13 in the above device is provided with a high frequency receiving circuit 131 and a high frequency transmitting circuit 132 and a high frequency antenna 133; the high frequency (HIGH FREQUENCY) receiving circuit 131 includes a set of high frequency receiving , the filter; the HIGH FREQUENCY transmitting circuit 132 includes a set of high frequency 9 200929085 transmitter, and the high frequency antenna 133 can be any metal conductor or circuit board antenna (PCB ANTENNA), and the device The microprocessor (foot) 11 on the control loop. The high frequency (HIGH FREQUENCY) receiving circuit 131 includes a set of high frequency receivers 1311 and the high frequency (HIGH FREQUENCY) transmitting circuit 132 includes a set of high frequency transmitters 1321, the high frequency transmitters of which can be frequency modulated ( FSK) or amplitude modulation (ASK) transmission or reception. The high frequency (HIGH FREQUENCY) receiving circuit 131 and the high frequency (jjigH FREQUENCY) transmitting circuit 132 may be a radio frequency (RF) receiving circuit and a radio frequency (RF) transmitting circuit. The instruction input circuit 14 in the above device is provided with a set of command input device 140 or an externally arranged command input device 14, which can directly operate the relevant command and input the command through the (I_t) circuit. 14 is electrically connected to the microprocessor 11 in the device to process an execution command for selecting the wireless electronic sensor 20 and function operation to be set and detected, and the command input device 140 can be a button module (KEYPAD) Or operate with settings such as voice control or infrared, Bluetooth, etc. The display output circuit 15 in the above device may be provided with a set of display output devices 150 or connected to an externally disposed display output device 15 , which may be electrically connected to the display output circuit 15 and The processing execution command is used to display the function operation and the signal transmission and reception status by connecting the microprocessor 11 in the device, and the display output device 150 can display the state of the screen or display the electronic light element (LED) for displaying a screen (LCD) image. The light and dark color signal shows the status of 200929085. The power supply module 16 in the above device is used for introducing and providing power required by all circuits, and a set of power supply device 160 or an externally arranged display wheel out device 16 is provided for direct or indirect battery/power collection. With supply. The application of the above device is a wireless electronic sensor 20, which is a device integrated with a set of electronic wireless control circuit boards, and the wireless electronic sensor 20 is provided with a microprocessor (MCU) 21 The microprocessor is used to manage all β peripheral devices, such as compensation, calibration, etc. in measurement of pressure, temperature, acceleration and battery voltage, and radio frequency (RF) emission control and power management; Measuring the internal condition of the monitoring container manifold; the low frequency (LOWFREQUENCY) receiving module 23, the high frequency (HIGH FREQUENCY) transmitting module 24; the high frequency (HIGH FREQUENCY) transmitting module 24 for detecting the detected : Information such as pressure, temperature, acceleration, and battery voltage are transmitted by radio frequency (RF) signals to detect the condition and transmit the performance of the negative material and send the detected information to the host receiver. Or the device is further processed or displayed; the power supply module 25 is used to provide all the electrical energy required by the circuit for direct or indirect introduction of battery/electric energy collection and supply. The setting system device 10 is configured to acquire the digital identification code (ID) or information of each wireless electronic sensor 2 on the object to be tested, and the setting operation and operation mode are as follows: In the setting system device 10 and the wireless electronic sensor 2 In the effective range of the low frequency transmission and reception, the wireless electronic sensor 2 is sequentially placed on each of the objects to be tested, and the user inputs the command input circuit 14 in the setting system device 10 to transmit the wake-up signal and the 200929085 performs the setting; The system device 10 transmits the low frequency (LF) signal 901 ' via the low frequency coil 122 via the low frequency transmitting circuit 121 ' of the low frequency transmitting module 12 and searches for the wireless electronic sensor 20 within the selected distance; the wireless electronic sensor The low frequency receiving module 23 of 20 is transmitted to the low frequency receiving circuit 231 via its low frequency coil 232, and senses that the setting system device 1 emits the wake low frequency signal 101, and the detecting function wireless electronic sensor 2 immediately wakes up from the low frequency receiving circuit 231. The high frequency transmitting circuit 241 inside the high frequency transmitting module 24 transmits the internal digital identification code (id) or other detected data through the high frequency antenna 242 to the high frequency (HF) signal. 902 transmits and responds to the setting system device 1〇, and receives the received signal into the high frequency receiving circuit 131 from the high frequency antenna 133 via the frequency transmitting and receiving module 13 in the setting system device 10; and sends it to the microprocessor (MCU) 11 for decryption. Processing and temporarily storing in the memory in the microprocessor (MCU) 11 or in the attached memory I, determining whether the wake-up command is reached and receiving the signal from the wireless electronic sensor 2 The display output circuit 15 in the setting system device 10 will respond to the display, and the display output device 150 can cause the duck of the lamp or the color change of the sample to show the actual state. The setting system device 10 is close to waking up the wireless electronic sensor 20 and transmitting and receiving the code or information, and then processing the temporary storage by the microprocessor (MCU) 11, and sequentially re-sorting the wireless electronic sensors 20 at other locations. The operation is repeated, and finally, the digital identification code (id) or information of the sensor of the plurality of sensors is collected, and then the user presses the command input device 140 connected to the command input circuit 14 in the setting system device 1 to operate the system to set the system. The high frequency transceiver module 13 in the device 10 12 200929085 frequency transmitting circuit 132 transmits the digital identification code (id) or information to the system host 30 via the high frequency antenna 133 or is transmitted by wired or wireless data. 〇5 • Transfer information to the remote system host 70. • Therefore, the device and operation of the above-described setting system device 10 can achieve the following objectives: 1. After the setting system device 1 obtains the digital identification code (ID) of each wireless electronic sensor 20, the host system 30 can be configured via the setting system. After the device 1 is configured to set and recognize the digital identification code (Π) of each wireless electronic sensor 20 and the correct address image, the host system in the high-frequency radiation range of the wireless electronic sensor 20 is Each of the wireless electronic sensors 20 is transmitted to the system host 30 by the high frequency signal 904. The system host 30 can display the detected correct data and data on the address of each measured object. 2. If the wireless electronic sensor 2 is unable to be in the host system 3 of its frequency range due to terrain limitation or setting requirements, or it is not necessary to set the host system nearby, 'g 30' β and 疋After the system device 1 can take and set the digital identification code (ID) of each wireless electronic sensor 20 and compare the correct address, the operation can be directly obtained after the information is obtained by the system device. Displaying the correct information on the address of each object under test; or transmitting its aggregated information to the remote system host 7 by wired or wireless data transmission 905, overcoming the telecom limits of the distance or terrain and facilities. Through the above device, each wireless electronic sensor can be awakened by maneuvering, so that the wireless electronic sensor 2 can be in a sleep mode in a normal state, and the wireless electronic sensing can be extended. Referring to the second and third figures, the second figure is a schematic diagram of the technical embodiment of the automobile 13 200929085 tire pressure tire detector (TPMS), revealing a wireless setting system device and automobile and wireless electronic sensing The appearance and operation relationship of the product form such as the device and the system host; the third picture is the appearance of the application example of this creation (1). • Second® and Third® Implementation Notes—An example of a setting system device that can be practically finer than a wireless electronic sensor (TPMS) for four-wheeled automobile tires; this application example is a four-wheeled vehicle TPMS setting system device i〇 A is mainly applied to the wireless electronic sensor 20 and the system host 3〇 on the tire of the four-wheeled automobile. ❹ When the depot-specific type setting system device is mainly applied to the new installation or the tire reversal or even the renewed wireless electronic sensor 20, the four-wheeled vehicle TPMS setting system device 10A has the transmission Qjpi on the operation panel of the instruction input device 140. 〇aci) key 142, update (CLR) key 143 and address setting key group area 141 1411; 1412; 1413; 1414 and other address setting keys; another display output device 15 has a power (Power) display light 152, The command display lamp 153, the upload display lamp 154, and the address display lamps 1511, 1512, 1513, and 1514 in the address display lamp group area 151.
Q 使用設定方式:四輪汽車TPMS設定系統裝置10A對準輪胎上 之無線電子感測器20(即汽車胎壓胎溫偵測器),按下四輪汽 車TPMS設定系統裝置i〇A内指令輸入裝置140内所設置連接 之相對應之各輪胎按鈕…;如範例四輪汽車TPMS設定系統裝 置10A以靠近汽車40左後輪胎404上之無線電子感測器204, 並在四輪汽車TPMS設定系統裝置i〇A之指令輸入裝置14〇上 位址設定鍵141内相對應之輪胎位址鍵按鈕,即左後LR輪胎 位址鍵1414按鈕,此時四輪汽車TPMS設定系統裝置1〇A會喚 14 200929085 醒無線電子感測器204,受到喚醒後之無線電子感測器2〇4再 將其數位識別碼33(圖例:其數位識別碼為2023820)或資訊傳 送回四輪汽車TPMS設定系統裝置i〇A,四輪汽車TPMS設定系 ' 統裝置10A則予以接收並將其數位識別碼(ID)或資訊處理並 儲存。 而該四輪汽車TPMS設定系統裝置1 〇A在操作指令輸入裝置j 4〇 之指令時’為確認辨識是否達成指令,顯示輸出裝置15〇所設 ❹ 置連接之相對應之各顯示裝置將可顯示回應,而在本實施例上 顯不輸出裝置150上燈之明減或色料變化顯示出實際狀態; 例如:按下位址鍵1414來設定喚醒汽車4〇左後LR輪胎4〇4上 之無線電子感測器204,當完成喚醒及回傳數位識別碼(丨的或 資訊,四輪汽車TPMS設定系統裝置10A顯示輸出裝置15〇上 之指令(Command)顯示燈153便會亮起燈訊表示己接到回傳訊 號,而位址顯示燈1514則確認是否接受認可數位識別碼(ID) 泛並予以顯示訊號,而每個位址顯示燈組區151的各位址只會接 党認可一個數位識別碼(ID) ’而同一個數位識別碼(ip)也不會 被兩個位址顯示燈所同時接受。 而後再循序靠近汽車4〇,四輪汽車TPMS設定系統裝置應將 才曰令輸入裝置140上其他位置之位址設定鍵mi之左前lf輪 胎1413、右前RF輪胎1411、右後RR輪胎1412的各個無線電 子感測器203、20卜202執行重複上述動作,當上述所有位址 顯示燈1514、1513、1511、1512都因接受認可汽車4〇上之無 線電子感測器204、203、2(Π、202上的各位置上數位識別碼 15 200929085 ⑽而依序並全部都己顯示訊息後,使用者再將四輪汽車娜 設定系統裝置1GA再對準系統主機3G,按指令輸入裝置⑽ 内之傳送(Upload)鍵142 ’便將編碼絲轉送至系統主 1當顯示輸出裝置15〇之傳送(Upl〇ad)顯示燈154亮起燈訊 表不己接_、齡機30 _接受設定峨,即絲汽車於廢 胎溫翻_(T_魏置及奴;如奴德置錯誤^需 才曰7輸入裝置140上之更新⑽)鍵146,並重新喚醒各輪胎 之無線電子感測器20及設定即可。 四輪汽車TPMS設定系統震置廳設定完成汽車胎壓胎溫侧 系統(TPMS)之配置後’主機系統3〇在從四輪汽車肝奶設定系 統裝置10A獲取各個無線電子感測器2〇丨、202、203、204之 編碼位址後’便能讓各個無線電子感測器2〇1、2〇2、203、204 在摘測物碰’再將產生資料直接傳送至主齡統3(),主機 系統30並得以正確揭示各受測物體位置上之所偵測之資料, 即>%車胎壓胎溫的偵測及顯示。例如:將汽車4〇左後輪胎4〇4 上之無線電子感測器204其數位識別碼33(圖例:其數位識別 碼為2023820)在主機系統3〇上之位址顯示區31顯示出代表 無線電子感測器204的位址顯示單元3〇4出現指示訊息,所偵 測之資料正確揭示在偵測數據顯示區32上。 上述在四輪汽車TPMS設定系統裝置10A及無線電子感測器20 兩者之低頻收發有效範圍内,其感應之有效距離規格設計,依 使用者方便操作原則上能區隔其他尚未選訂之目標,以避免同 16 200929085 時喚醒或誤選到其他無線電子感測器20; —般設計時應小於兩 個無線電子感測器20設置之間距之一半内較合理,例如:執行 操作上四輪汽車TPMS設定系統裝置l〇A從汽車輪胎無線電子 感測器204應有限及有效距離在内,這樣不易同時喚醒或誤選 到其他無線電子感測器201或202或203。所以汽車胎壓胎溫 摘測系統(TPMS)專用之四輪汽車TPMS設定系統裝置1 〇A其一 般有效感應距離設計規格約在1〇〇公分以内較合宜。 請參閱第四圖係本創作之應用例外觀示意圖(二),揭示多輪 卡車TPMS設定系統裝置10B為應用於多輪組卡車輪胎之無線 電子感測器(TPMS)的設定系統裝置,多輪卡車TPMS設定系統 裝置10B其指令輸入裝置140操作面板上具有傳送(Upload) 鍵142、更新(CLR)鍵143及位址設定鍵組區141内的1411; 1412; 1413; 1414; 1415; 1416…。等各位址設定鍵;另顯示 輸出裝置150有電源(Power)顯示燈152、指令(Command)顯示 燈153、傳送(Upload)顯示燈154及位址顯示燈組區151内的 各位址顯示燈 1511、1512、1513、1514; 1515; 1516 …等。 請參閱第五圖係本創作之應用例外觀示意圖(三),揭示多用 途型設定系統裝置10C為一種應用於普偏非特定專用或大數 量無線電子感測器的設定系統裝置’多用途型設定系統裝置 17 200929085 10C其設有指令輪入裝置140顯示輸出裝置150.··等。 請參閱第六圖係本創作之應用例外觀示意圖(四),揭示複合 • 性設定系統裝置10D為一種兼具無線電子感測器主機顯示系 統功能的設定系統裝置,複合性設定系統裝置10D其設有指令 輸入裝置140顯示輸出裝置150,在其顯示輸出裝置150上並 設有顯示無線電子感測器偵測内容的感測資訊顯示區155.·. 請參閱第七圖係本創作之應用例外觀示意圖(五),揭示一種 具設定及收發儲存無線電子感測器資料的系統裝置,可設置成 包覆在一組殼體内的集成的模組電路板的插套式設定系統裝 置10A並設有一匯排流插頭18,可以外置週邊配備插入各式 ❹ 具微處理器(MCU)之攜帶型電子設備上,利用連接外部設置手 持式型電腦50上的指令輸入裝置140及顯示輪出裝置15〇, 使該指令輸人裝置140可以直接操作相_令處理執行指 令’用來選擇所欲設定之功能操作’顯示輸出裝置⑽得以用 來顯示功能操作及收發訊號狀況,例如可連接插置在掌上型電 腦(PAD)或其他攜帶型電腦上。 參閱第八圖係本創作之應用例外觀示意圖 於以整合模組電路板型式以直接置入攜帶型 (六),揭示一應用 電子設備内裡的 18 200929085 設定系統裝置’爲本創作應用例主應用於所述之以整合模組電 路板型式的置人歧定系統裝置⑽,插裝置人各式具微處理 器(MCU)之攜帶型電子設備—可整合設定系統裝置模組電路板 在内的電腦60上。利用連接外部設置可整合設定系統裝置模 組電路板在内的電腦60上的指令輸入裝置14〇及顯示輸出裝 置150,使該指令輸入裝置14〇可以直接操作相關指令處理執 行指令’用來選擇所欲設定之功能操作.顯示輸出裝置15〇得 ❹ 以用來顯示功能操作及收發訊號狀況。 以上所述,僅是本創作一種具設定及收發儲存無線電子感測器 資料的系統裝置之較佳實施例而已,並非對本創作的技術範圍 作任何限制,故凡是依據本創作的技;^實質對以上實施例所作 的任何細微修改、等同變化與修飾,均仍屬於本創作具有設定 及收發儲存無線電子感測器資料的系統裝置技術方案的範圍 内。 ❹ 【圖式簡單說明】 第一圖係本創作之電路方塊圖示意圖,揭示一無線設定系統裝 置與一組無線電子感測器及系統主機之無線感測收發系統工 作原理不意圖。 第二圖係本創作之技術一實施例實際示意圖,揭示一無線設定 系統裝置與一組無線電子感測器及系統主機之產品形式外觀。 第三圖係本創作之應用例外觀示意圖(一),揭示一應用於四 19 200929085 輪汽車輪胎之無線電子感測器(TPMS)的設定系統裝置。 第四圖係本創作之應用例外觀示意圖(二)’揭示一應用於多 - 輪組卡車輪胎之無線電子感測器(TPMS)的設定系統裝置。 • 第五圖係本創作之應用例外觀示意圖(三)’揭示一應用於— 般或大數量無線電子感測器的設定系統裝置。 第六圖係本創作之應用例外觀示意圖(四),本創作揭示一應 用於整合無線電子感測器主機顯示系統功能的複合性設定系 β 統裝置。 第七圖係本創作之應用例外觀示意圖(五),為一將設定系統 裝置模組電路板設計成一組包覆在殼體内的集成的模組電路 板的插套式設定系統裝置與掌上型電腦。 第八圖係本創作之應用例外觀示意圖(六),為一可整合設定 系統裝置模組電路板設計在内的電腦,應用於置入式設定系统 裝置與可整合設定系統裝置模組電路板在内的電腦。 〇 【主要元件符號說明】 10、設定系統裝置 11、微處理器(MCU) 12、低頻(LOW FREQUENCY)發射模組 121、低頻發射電路 122、低頻線圈 13高頻(HIGH FREQUENCY)收發模組 131、高頻接收電路 132、高頻發射電路 133、高頻天線 14、指令輸入(Input)電路 140、指令輸入裝置 141、位 址設定鍵組區 142、傳送(Upload)鍵143、更新(CLR)鍵 20 200929085 1411; 1412; 1413; 1414; 1415; 1416..·、位址設定鍵 15、 顯示輸出電路 150、顯示輸出裝置 151、位址顯示燈 - 組區 152、電源(Power)顯示燈 153、指令(Command)顯 . 示燈 154、傳送(Upload)顯示燈 155、感測資訊顯示區 1511; 1512; 1513; 1514; 1515; 1516.·.、位址顯示燈 16、 供電模組160、供應電源裝置 17、儲存資料電路… 170、儲存資料裝置 18、匯排流插頭 ❹ 20、無線電子感測器 21、微處理器(MCU) 22、檢測傳感 器 23、低頻(LOW FREQUENCY)接收模組 232、低頻線圈 24、高頻(HIGH FREQUENCY)發射模組 241、高頻發射電路 242、高頻天線 25、供電模組 201、右前輪胎胎内無線電子感測器 202、右後輪胎胎内無 線電子感測器 203、左前輪胎胎内無線電子感測器 204、左後輪胎胎内無線電子感測器 〇 30、系統主機 311、位址顯示組區 312、偵測數據顯示區 313、ID 顯示區 3111; 3112; 3113; 3114..·、位址顯示單元 40、四輪汽車 4(H、右前輪胎 404、右後輪胎 404、 左前輪胎 404、左後輪胎 901、低頻訊號 902、高頻訊號 903、高頻訊號 904、 高頻訊號905、有線或無線資料傳輸 10A、四輪汽車TPMS設定系統裝置 10B、多輪卡車TPMS設 定系統裝置 10C、多用途型設定系統裝置 10D、複合性設 21 200929085 定系統裝置 10E、插套式設定系統裝置 10F、置入式設定 系統裝置 ' 50、手持式型電腦 60、可整合設定系統裝置模組電路板在 - 内的電腦 70、遠端系統主機Q Use setting method: Four-wheeled vehicle TPMS setting system device 10A is aimed at the wireless electronic sensor 20 on the tire (ie, the tire pressure tire temperature detector), and presses the four-wheeled vehicle TPMS setting system device i〇A internal command Each of the corresponding tire buttons of the connection provided in the input device 140; such as the example four-wheeled vehicle TPMS setting system device 10A is located near the wireless electronic sensor 204 on the left rear tire 404 of the automobile 40, and is set in the four-wheeled vehicle TPMS The command input device 14 of the system device i〇A has the corresponding tire address key button in the address setting button 141, that is, the left rear LR tire address button 1414 button. At this time, the four-wheeled vehicle TPMS setting system device 1A will Call 14 200929085 wake up wireless electronic sensor 204, after the wake-up wireless electronic sensor 2〇4 and then its digital identification code 33 (illustration: its digital identification code is 2023820) or information back to the four-wheeled vehicle TPMS setting system The device i〇A, the four-wheeled vehicle TPMS setting system 10A receives and processes and stores its digital identification code (ID) or information. And the four-wheeled vehicle TPMS setting system device 1 〇A, when operating the command input device j 4 〇 'to confirm whether the recognition is reached, the corresponding display device of the display device 15 〇 connected to the device The response is displayed, and in the present embodiment, the display of the light on the output device 150 or the color change indicates the actual state; for example, pressing the address key 1414 to set the wake-up car 4 〇 left rear LR tire 4 〇 4 The wireless electronic sensor 204, when completing the wake-up and returning of the digital identification code (丨 or information, the four-wheeled vehicle TPMS setting system device 10A display output device 15 指令 command (display) display light 153 will light up the light It indicates that the return signal has been received, and the address display light 1514 confirms whether or not the recognized digital identification number (ID) is accepted and the signal is displayed, and each address indicates that the address of the light group area 151 is only accepted by the party. The digital identification code (ID) 'and the same digit identification code (ip) will not be accepted by both address indicators. Then, it will be close to the car 4 steps, and the four-wheeled vehicle TPMS setting system device should be ordered. Input The respective wireless electronic sensors 203, 20b 202 of the left front lf tire 1413, the right front RF tire 1411, and the right rear RR tire 1412 of the address setting key mi at the other position on the 140 are repeatedly performed, when all the above addresses are displayed. The lamps 1514, 1513, 1511, and 1512 are all sequentially displayed and all of the wireless electronic sensors 204, 203, and 2 (the digital identification code 15 200929085 (10) at each position on the Π, 202 are received. After the message, the user re-aligns the four-wheeled vehicle setting system device 1GA with the system host 3G, and presses the upload button 142' in the command input device (10) to transfer the coded wire to the system main 1 as the display output device 15 Up〇ad display light 154 lights up the light meter is not connected _, age machine 30 _ accept the setting 峨, that is, the silk car in the waste tire temperature _ (T_ Wei and slave; such as Nuode The error is required to enter the update (10) button 146 on the input device 140, and the wireless electronic sensor 20 and the settings of each tire can be re-awakened. The four-wheeled vehicle TPMS setting system is set to complete the tire temperature of the tire. After the configuration of the side system (TPMS), the host system 3 is in the four rounds. After the car liver milk setting system device 10A obtains the coded addresses of the respective wireless electronic sensors 2, 202, 203, 204, the individual wireless electronic sensors 2〇1, 2〇2, 203, 204 can be made After the sample is touched, the generated data is directly transmitted to the master system 3 (), and the host system 30 can correctly reveal the detected information at the position of each object to be tested, that is, >% tire tire pressure detection And display. For example, the wireless electronic sensor 204 on the left rear tire 4〇4 of the automobile has its digital identification code 33 (illustration: its digital identification code is 2023820) in the address display area 31 on the host system 3〇. The address display unit 3〇4 representing the wireless electronic sensor 204 displays an indication message, and the detected data is correctly revealed on the detection data display area 32. In the above-mentioned effective range of the low-frequency transmission and reception of the four-wheeled vehicle TPMS setting system device 10A and the wireless electronic sensor 20, the effective distance specification of the sensing is designed to be able to distinguish other unselected targets according to the user's convenient operation. To avoid waking up or misselecting to other wireless electronic sensors 20 when 16 200929085; the general design should be less than one half of the distance between the two wireless electronic sensors 20 settings, for example: performing four rounds of operation The automotive TPMS setting system device 10A should have a limited and effective distance from the car tire wireless electronic sensor 204, so that it is not easy to wake up or misselect to other wireless electronic sensors 201 or 202 or 203 at the same time. Therefore, the four-wheeled vehicle TPMS setting system device for the tire tire temperature measurement system (TPMS) 1 〇A is generally suitable for the effective sensing distance design specification within 1 cm. Please refer to the fourth diagram for the appearance of the application example (2). The multi-wheel truck TPMS setting system device 10B is a setting system device for a wireless electronic sensor (TPMS) applied to a multi-wheel truck tire. The truck TPMS setting system device 10B has an operation input panel 140 having an upload button 142, an update (CLR) button 143, and an address setting key group area 141 of 1411; 1412; 1413; 1414; 1415; 1416... . And the address setting button; the other display output device 150 has a power indicator 152, a command indicator 153, an upload indicator 154, and a address indicator 1511 in the address display group area 151. , 1512, 1513, 1514; 1515; 1516 ... and so on. Please refer to the fifth drawing, which is a schematic diagram of the application example (3) of the present application, and discloses that the multi-purpose setting system device 10C is a setting system device applied to a non-specific non-specific or large number of wireless electronic sensors. The setting system device 17 200929085 10C is provided with a command wheeling device 140 for displaying the output device 150. Please refer to the sixth figure for the appearance of the application example (4), and disclose that the composite setting system device 10D is a setting system device having the function of the wireless electronic sensor host display system, and the composite setting system device 10D The command input device 140 is provided with an output device 150. The display device 150 is provided with a sensing information display area for displaying the content detected by the wireless electronic sensor. 155. FIG. 5 is a schematic diagram showing a system device for setting and transmitting and storing wireless electronic sensor data, which can be set as a socket type setting system device 10A of an integrated module circuit board wrapped in a set of casings. The utility model further comprises a bus discharge plug 18, which can be equipped with an external electronic device for inserting various microprocessors (MCUs), and an instruction input device 140 and a display wheel on the handheld computer 50 for external connection. The device 15 〇 is configured to enable the command input device 140 to directly operate the phase _ command processing execution command 'used to select the desired function operation' display output ⑽ be used to display the operation status signals and a transceiver, for example, may be interposed in the connection handheld computer (PAD) or other portable computers. Referring to the eighth figure, the appearance of the application example is based on the integrated module circuit board type to directly insert the portable type (six), revealing an application electronic device in the 18 200929085 setting system device 'as the creative application example The utility model relates to a device for arranging a ambiguity system (10) integrated with a module circuit board type, and a portable electronic device with a microprocessor (MCU) for inserting a device, which can integrate a system circuit board for setting a system device module. On the computer 60. The command input device 14A and the display output device 150 on the computer 60, which can be integrated with the setting system device module circuit board, can be integrated with the external setting, so that the command input device 14 can directly operate the related command processing execution command 'for selection The function operation to be set. The display output device 15 is used to display the function operation and the signal transmission status. As described above, the present invention is merely a preferred embodiment of a system device for setting and transmitting and storing wireless electronic sensor data, and does not impose any limitation on the technical scope of the present invention. Any minor modifications, equivalent changes and modifications made to the above embodiments are still within the scope of the system device technical solution for setting and transmitting and storing wireless electronic sensor data. ❹ [Simple description of the diagram] The first diagram is a schematic diagram of the circuit block diagram of the present invention, which discloses a wireless setting system device and a set of wireless electronic sensors and a wireless sensing transceiver system of the system host. The second figure is a practical schematic diagram of an embodiment of the present technology, revealing the appearance of a wireless setting system device and a set of wireless electronic sensors and system hosts. The third figure is a schematic diagram of the appearance of the application example of the present invention (1), and discloses a setting system device for a wireless electronic sensor (TPMS) applied to the automobile tire of the four 19 200929085. The fourth figure is a schematic diagram of the appearance of an application example of the present invention (2)' discloses a setting system device for a wireless electronic sensor (TPMS) applied to a multi-wheel truck tire. • The fifth figure is a schematic diagram of the appearance of the application example of this creation (3) ′ discloses a setting system device applied to a general or large number of wireless electronic sensors. The sixth figure is a schematic diagram of the appearance of the application example of the present creation (4). This creation discloses a composite setting system which is applied to integrate the functions of the display system of the wireless electronic sensor. The seventh figure is a schematic diagram of the application example of the creation (5), which is a socket type setting system device and a palm which are designed to design a system device module circuit board into a set of integrated module circuit boards covered in the casing. Computer. The eighth figure is a schematic diagram of the application example of the creation (6), which is a computer that can integrate the design of the system device module circuit board, and is applied to the embedded setting system device and the integrated setting system device module circuit board. Inside the computer. 〇 [Main component symbol description] 10. Setting system device 11, microprocessor (MCU) 12, low frequency (LOW FREQUENCY) transmitting module 121, low frequency transmitting circuit 122, low frequency coil 13 high frequency (HIGH FREQUENCY) transceiver module 131 The high frequency receiving circuit 132, the high frequency transmitting circuit 133, the high frequency antenna 14, the command input circuit 140, the command input device 141, the address setting key group area 142, the upload key 143, and the update (CLR) Key 20 200929085 1411; 1412; 1413; 1414; 1415; 1416.., address setting key 15, display output circuit 150, display output device 151, address display light - group area 152, power display light 153 , command (display) display 154, transfer (upload) display light 155, sensing information display area 1511; 1512; 1513; 1514; 1515; 1516.., address display light 16, power supply module 160, Supply power supply device 17, storage data circuit 170, storage data device 18, bus flow plug ❹ 20, wireless electronic sensor 21, microprocessor (MCU) 22, detection sensor 23, low frequency (LOW FREQUENCY) receiving module 232, low frequency coil 24, high (HIGH FREQUENCY) transmitting module 241, high frequency transmitting circuit 242, high frequency antenna 25, power supply module 201, right front tire intra-fetal wireless electronic sensor 202, right rear tire intra-fetal wireless electronic sensor 203, left front tire intra-fetal wireless The electronic sensor 204, the left rear tire intra-fetal wireless electronic sensor 〇30, the system host 311, the address display group area 312, the detection data display area 313, the ID display area 3111; 3112; 3113; 3114.. Address display unit 40, four-wheeled vehicle 4 (H, right front tire 404, right rear tire 404, left front tire 404, left rear tire 901, low frequency signal 902, high frequency signal 903, high frequency signal 904, high frequency signal 905, Wired or wireless data transmission 10A, four-wheeled vehicle TPMS setting system device 10B, multi-wheel truck TPMS setting system device 10C, multi-purpose type setting system device 10D, composite device 21 200929085 fixed system device 10E, plug-in type setting system device 10F , built-in setting system device '50, hand-held computer 60, computer 70 with integrated system device module circuit board, remote system host
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