iu J 7 丄 J / 3 五、新型說明: 【新型所屬之技術領域】 ^創作係關於-種非接觸式控做置,特別是—種整合处仍 與藍芽傳輸機制的非接觸式控制袭置。 【先前技術】 隨著機車產業的不斷演進,車用錄匙的技術也不斷推陳出 新。傳統上’車崎匙是採用機械式的。當機械式鱗的凹凸刻 之、車鎖内的鎖!對應之形狀相符合時,即可利職械式錄匙旋 轉車鎖,叫啟車Η或是發動車輛、錢,機械絲匙上的凹凸 刻紋容綠複製,且機械式的車鎖亦容㈣外力破壞而開啟。因 此機械式的銳與鎖具在安全性上受到相當程度的質疑。 有鑑於此種稱為非接觸鑰匙(keyless)因而誕生。一般而 言,非接觸鑰匙係採用射頻辨識(Radk)Frcqueney 作為訊號發送魏的技術。車輛上配置有麵顺讀取器卿^ Reader),用以讀取鑰匙上射頻辨識標籤(_㈣的資料,頻辨Iu J 7 丄J / 3 V. New description: [New technology field] ^Creation department about non-contact control, especially the non-contact control of the integration and the Bluetooth transmission mechanism Set. [Prior Art] With the continuous evolution of the locomotive industry, the technology of car keying is constantly being updated. Traditionally, the car is a mechanical one. When the mechanical scales are inscribed, the lock inside the lock! When the corresponding shape is consistent, you can use the mechanical key to rotate the car lock, call the car or start the vehicle, the money, the uneven marking on the mechanical key, and the mechanical lock is also acceptable. (4) The external force is destroyed and opened. Therefore, mechanical sharps and locks are subject to considerable degree of security. This is due to the fact that this is called a keyless. In general, the non-contact key uses the radio frequency identification (Radk) Frcqueney as the signal transmission technology. The vehicle is equipped with a face-reading reader, ^ Reader), which is used to read the RFID tag on the key (_(4)).
識標籤(RFIDtag)儲存有獨一無二的識別碼,而此識別碼可藉由射 頻辨識讀取H(RPIDReadei·)讀取。冑射綱識讀取1(RHD 判別射頻顺賴(RFID tag)的酬碼符合—侧設鋪,即可准 許車輛發動或是開啟車門。__非接觸式的鎖具無法輕易的 由外力所破壞而開啟,細當射頻辨識標籤(RpiDtag)在與射頻辨 識讀取ll(RFID Reader)進行辨識碼傳輸的中,觸碼仍然有 可月b會被益錄。因此,非接觸鍮匙尚有被破解的風險存在。 3 M391575 另外一種非接觸式鑰匙係可期藍㈣為傳輸技術。藍芽傳 达端與接收端在傳送資料時,會不斷地切換使用的頻率。此外 被傳送的資料會以特殊的加密機制進行加密。因此,相較於射頻 辨識卿)技術,_&芽物㈣,被鶴的可能性將大巾5 :=是說,細輸犧的安全性將遠勝心 然而’若是树_式缺战置料倾[ 讀需要㈣力触卻-於射麵識標籤。此外,-般而Γ 在利用藍芽傳輸器進行開铛幸 ° 哭主鮮m f係由非接觸式鑰匙上的藍芽傳輸 :,去搜㈣外-她置於車_藍芽傳輸器,並且在非接觸 ,鑰藍芽傳輸_進行鳴細魏成後’才可准許車 輛發動或是開啟車門。因此,作為非接觸式銳上的藍 需要經過特输計,___爾蝴,才能達到上 述的功能。 鑰匙鱗^彻1歧鮮作轉接觸式 ’’’、、''—疋這兩種技術上各有優劣。RFID具有省 =優點部有安全性上的疑慮。藍芽的優缺點恰好相反,雖缺 牙的安錄遠缺咖^,但絲«域雜卿。也就是 :侧知技術已賴_卿或是靖絲傳輸機制, ^未有—種無線傳輸機制能夠兼具有上述錢以及高安全 性的優點。 【新型内容】 M391575 置,以 鑒於以上的問題,本創作係提出一種非接觸式控織 兼具有省電以及高安全性的優點。 主控模 非接觸式控制裝置包含有一主控模組及一副控模組 ㈣性連接至一電路控制裝置。主控模組包括-RFID發射器 第二 弟〜藍芽收發器與—_。副控模組包括-娜接收器與 藍芽收發器。 -用以開啟主控模組之RFID發射與第一藍芽收發器,丽^ 發射發送-低頻啟動訊號至獅接收器,以開啟該第二藍芽收發 第-料收發器發送—搜尋訊號至第二藍芽收發器,該 第二藍芽收發器回傳-加密資料至該第—藍芽收發器,以使主控 裝置發送一觸發訊號至電路控制裝置。 除此之外’賴作$提&—種非接觸式控制之方法,適用於 上述之非接觸式控制褒置。此方法包括:開啟即仍發射器與第一 #藍芽收發器,由奸10發射器產生一低頻啟動訊號,並由第°1藍芽 收發器,發送一搜尋訊號,·當RFID接收器低頻啟動訊號,並辨識 低頻啟動訊號無誤之後,·第二藍芽收發器;#第二藍芽收發 器接收到搜尋訊號時’回傳-加密資料;當第—藍芽收發器辨識 加饴資料無誤後,主控裴置發送一觸發訊號至電路控制裝置。 綜合以上所述,本創作所提出之非接觸式控制裝置與方法, 可由主控模組主動地去開啟副控模組,使副控模組平常可保持於 睡眠省電模式,以節省電能的消耗。此外,即仍接收器可先辨識 低頻啟動訊號是否無誤,且第一藍芽收發器亦會對於加密訊號進 M391575 行辨識。也就是說,此非接觸式控制裝置與方法,需要進行雙重 的辨正’靖低被絲的解,_—步地提高朗上的安全性。 【實施方式】 以下在貝;^方式巾係進—步詳細說明本創作之詳細特徵以及 優點’其内容足以使购熟習_技藝者了解本創作之技術内容 並據以實施’絲縣_書所縣之棘、巾請專纖圍及圖 式’任『何熟習相關技藝者可輕易地理解本創作相關之目的及優點。 第1圖』至帛4圖』係為本創作所提出之非接觸式控制 裝置之系縣_。非接觸式控織置包括主減㈣與副控模 組20。 請參照『第1圖』’係為本創作所提出的主控模組的系統方塊 圖此主控板組10包括咖)發射器12(亦可稱為第一麵^構 件)、第-藍芽收發器14(亦可稱為第一藍芽構件)、開關15、微處 理器16與電源18。 主控模組1G可為-鎖具,裝·機車的車體内。此主控模电 ω電性連接至-電路控制裝置3G。主控模組1G可傳送一觸發訊 號至電路控制裝置30。當電路控制裝置3〇接收到一觸發訊號時, 電路控制裝置30可以供電給_門,以准許使用者發動車輛。 主控桓組H)的電力係由電源18所供應。此電源18可為機車的蓄 電池(電瓶)。因為機車在發動時,常會在瞬間產生脈衝電流。因此, 電源18需經過_路19處理之後,方可提供主控模㈣乾淨 穩定的電壓。而穩壓電路19除了具有敎電壓的功能以外,亦可 去除靜電放電的干擾。 RFID發射器12係可為料相^ 頻辨識讀取器(RRDD Reader),用以 發射RFID低微動職。^藍芽收料14較符合藍芽通訊 規格的—祕雜元件。咖彳_丨2、第-料《器Μ與 微處理器16可整合至一單β y扯雜 日日片積體電路(System on chip Integrated Circuit,SOC IC)中,哎熹 w v ^ 疋了各自獨立為一個單獨的積體電路 (Integrated Circuit,1C)。 微處理器16則紐連接至__ 15。當使用者絲去改變開 關15的狀態日^如說從,,〇FF,,切_,όν”,貞则15即傳送 啟動訊號至微處理裔16。微處理器16隨即會開啟鹏^發射器 12與第一藍芽收發器14。此時,咖發射器U會發送-低頻啟 動訊^且第-藍芽收發器14會搜尋附近有無其他的藍芽收發器。 ⑽照『第2 ®』’係為本創作所提出的副控模組的第一實施 例系統方塊圖。副控模組2〇包括即仍接收器22(亦可稱為第二 RFID構件)、第二藍芽收發器24(亦可稱為第二藍芽構件)與微處理 盗26 〇 副控模組20可設置於一非接觸式的餘匙上,且副控模組20 係用以與主控模組1〇互動。 副控模組20的電力係由電源25所供應。電源25可由乾電池、 鐘電池或水銀電池所提供電能,再經由直流/直流(dc/dc)轉換 後,供應給副控模組2〇。 、 即10接收器22係可為射頻辨識讀取器(RFEDta幻。第二藍芽 收發°° 24則疋付合監芽通訊規格的一無線傳輸元件。见p江)接收 器22、第二藍芽收發器24與微處理器26可整合至一單晶片積體 電路(System on chip Integrated Circuit ’ SOC 1C)中,或是可各自獨 立為一個單獨的積體電路(IntegratedCircuit,IC)。 微處理器26電性連接至rfid接收器22與第二藍芽收發器 24。微處理器26平時處於關機模式(〇ffm〇de)。當处瓜接收器r 接收到RFID發射n 12所發射的低頻啟動訊號時,並且辨識無誤 時’ RFID接收器22會傳送一喚起訊號給予微處理器26。此時, 微處理II 26會開啟第二歸收發器24。第二縣收發器%會接 收第-藍芽收發器14的搜尋訊號後,會回覆—加密訊號予第一藍 牙收發器14。第-藍芽收發n 14會對於加魏舰行辨識,在辨 識热誤之後。主控模組10可傳送一觸發訊號至電路控制裝置邓, 以完成上述的准許使用者發動車輛、准許使用者開啟車門或直接 發動車輛等_作v主控模組1G與副控模組2()詳細的運作方式 容後詳述。 明參照弟3圖』’係為本創作所提出的副控模組的第二實施 例系統方翻。I彳控模組2〇包括则^接收器22、第二藍芽收發 器24、微處理盗26、電源25與按鍵28。 在此貫施财’於准許發動機車狀態下,當使黯按下按鍵 28後,s’j控模組20可控制主控模組1〇操作於一可配對模式。在 可配對模式之下,主控模組1G的第—藍芽收發器14可與其他具 有藍芽收發器的裝置進行配對。在配對完成後,其他具有藍芽收 發器的裝置即可具有_的·,以作為備份的鱗^而此具有 藍芽收發n的裝置,舉例而言可以是手機或是個人數位助理 (Personal Digital Assistance,PDA)。 «月茶如、f 4圖』’係為本創作所提出的副控模組的第三實施 例系統方塊圖。副控模組20包括RHD接收器22、第二藍芽收發 器24、微處理器26、電源25、按鍵28與指示燈29。 此外,副控模組20可讀取已設定配對參數。配對參數,比如 說可以是⑴奴其他的料㈣器枝f要輸人密碼;(2)其他的 藍芽收發器可輯隨量及優絲序;(3)衫准許傳送車辅資訊 予其他的藍芽收發器。 指不燈29是當微處理器26彳貞測到電源25供應的電麗低於一 臨界值時,指示燈29會持續的_—段_,以提醒使用者應該 更換電池。 上述的『第1圖』至『第4圖』概略地說明此主控模組1〇與 副控模組20的硬體架構。而主雛組1()與副控歡2()詳細地運 作方式晴參照『第5圖』至『第8圖』。 晴參照『第5 ®』’係為本創作所提出之非接觸式控制方法之 第一實施例之流程圖。 在步驟sioi中’當開關15的狀態改變時,開關· 15即傳送一 啟動訊敍微處理g 16。微處職16_會開啟处①發射器u 與第一藍芽收發器14。 在步驟S102中,卿發射器12被開啟後,即會產生—低頻 «91575 啟動訊號。 另一方面,在步驟S201中,RFID接收器22會接收此一低頻 啟動訊號。在RPID接收H 22接·敝動訊驗,會先顺此 低頻啟動訊號是砰合_預設值。此i賴射視為第一層認 證解鎖。 若是辨識無誤時,微處理器26會從原本的關閉模式(〇ffm〇de) 轉換成工作模^(active m〇de)。之後,在步驟S2〇2巾,微處理器 26會開啟第二藍芽收發器24。因為微處理器%尸、有在接收低頻 啟動訊號後才會轉成工倾式,其他A部分的時間皆可保持在無 耗電的關閉模式。 *而在步驟S103中,第-藍芽收發器14會發送搜尋訊號以搜 尋其第二歸收發[在步驟簾n藍芽收#||24在接 收到搜尋訊號後,會回傳—個加㈣料予第—藍芽收發器Μ。在 步驟SUM中’第一藍芽收發_ M會對於此加密資料進行解密, 並且辨識解密後的資料是否符合—預難。此處_識機制,則 可視為第二層認證解鎖。 。若是辨識無誤時,第一藍芽收發ϋ Η則會通知第二藍芽收發 器24已完成認證程序。 在步驟S105中,第一藍芽收發器Η判斷是否完成認證。 。若是’則執行步驟S106,也就是主控模組1〇可傳送一觸發訊 號至電路控繼置3〇,邮許使聽發鱗輛、准許使用者開啟 車]或直接發動車輛。並且,在步驟sl〇7中,即將肌^發射器 M391575 12關閉。 若否,則代表開關15可能被誤觸,或是第一藍芽收發器14 無法搜尋到其他的藍芽收發器。因此,此時即關閉第一藍芽收發 器14與RFID發射器12。 另一方面,在步驟S204中,第二藍芽收發器24判斷是否完 成認證。 若是,則執行步驟S205 ’則RFID接收器22會被關閉。处仍 接收器22會被關閉時’係為進入一省電狀態,仍然尚能接收訊號。 若否,則代表副控模組20可能被錯誤的訊號而開啟。因此, 此時可關閉RFID接收器22、第二藍芽收發器24,並將微處理器 26切換成關閉模式(0ff。 請參照『第6圖』,係為本創作所提出之非接觸式控制方法; 第二實施例之流程圖。為了降低轉祕觸式誤_機率,^The RFID tag stores a unique identification code that can be read by the RF identification read H (RPIDReadei·).胄射纲识读1 (RHD discriminates the RFID tag's code conforms to the side shop, allowing the vehicle to start or open the door. __ Non-contact locks can not be easily destroyed by external forces When it is turned on, the radio frequency identification tag (RpiDtag) is transmitted in the identification code with the RFID reader. The touch code is still available for the month b. Therefore, the non-contact key is still The risk of cracking exists. 3 M391575 Another kind of non-contact key system can be blue (4) for transmission technology. When the Bluetooth transmitting end and the receiving end transmit data, it will constantly switch the frequency of use. In addition, the transmitted data will be The special encryption mechanism is used for encryption. Therefore, compared to the RFID technology, _& bud (4), the possibility of being craned will be a big towel 5: = that the safety of the fine sacrifice will be far better than the heart' If it is a tree _ type lack of warfare dumping [reading needs (four) force touch - on the face to identify the label. In addition, the general use of the Bluetooth transmitter for open ° ° ° crying main fresh mf is transmitted by the Bluetooth on the contactless key:, go to search (four) outside - she placed in the car _ Bluetooth transmitter, and In the non-contact, key Bluetooth transmission _ after the sound fine Wei Cheng 'can allow the vehicle to start or open the door. Therefore, as a non-contact sharp blue, it is necessary to pass the special transmission meter, ___ er butterfly, to achieve the above functions. The key scales are completely different from each other. ’’’, ’’’’’’’’’’’’ RFID has a concern about the safety of the department. The advantages and disadvantages of the blue buds are just the opposite. Although the lack of teeth is far from the coffee ^, but the silk «domain miscellaneous. That is to say: the side knows that the technology has been relied on _Qing or Jingshi transmission mechanism, ^ no kind of wireless transmission mechanism can have the advantages of the above money and high security. [New content] M391575, in view of the above problems, this creation proposes a non-contact control and has the advantages of power saving and high security. The main control mode non-contact control device comprises a main control module and a sub control module (4) connected to a circuit control device. The main control module includes - RFID transmitter second brother ~ Bluetooth transceiver and -_. The sub-control module includes a -na receiver and a Bluetooth transceiver. - to enable the RFID transmission of the main control module and the first Bluetooth transceiver, and to transmit the transmission-low frequency activation signal to the lion receiver to enable the second Bluetooth transceiver transceiver to send the search signal to The second Bluetooth transceiver, the second Bluetooth transceiver returns the encrypted data to the first Bluetooth transceiver, so that the master device sends a trigger signal to the circuit control device. In addition to this, the method of non-contact control is applied to the above-mentioned non-contact control device. The method includes: turning on the transmitter and the first #Bluetooth transceiver, generating a low frequency start signal by the trait 10 transmitter, and transmitting a search signal by the °1 Bluetooth transceiver, · when the RFID receiver is low frequency After the signal is activated and the low frequency start signal is recognized, the second Bluetooth transceiver; #2 Bluetooth transceiver receives the search signal 'backhaul-encrypted data; when the first-blue transceiver recognizes the added data is correct After that, the master device sends a trigger signal to the circuit control device. In summary, the non-contact control device and method proposed by the present invention can actively open the sub-control module by the main control module, so that the sub-control module can be normally maintained in the sleep power-saving mode to save power. Consumption. In addition, the receiver can still recognize whether the low-frequency start signal is correct, and the first Bluetooth transceiver will recognize the encrypted signal into the M391575 line. That is to say, this non-contact type control device and method requires a double discrimination of the solution of the Jingshen silk, and the safety of the Langshang is improved. [Embodiment] The following is a detailed description of the detailed features and advantages of the present invention. The content is sufficient for the skilled person to understand the technical content of the creation and implement the 'Sixian County Bookstore. The county's spines, towels, special fiber and the pattern 'any' who familiar with the relevant art can easily understand the purpose and advantages of this creation. The first picture "to 帛 4" is the department of the non-contact control device proposed by the author. The non-contact controlled weaving includes a primary subtraction (four) and a secondary control die set 20. Please refer to "Figure 1" for the system block diagram of the main control module proposed by the author. The main control board group 10 includes the coffee transmitter 12 (also referred to as the first surface member), the first blue The bud transceiver 14 (also referred to as the first Bluetooth component), the switch 15, the microprocessor 16 and the power source 18. The main control module 1G can be a lock, a body of a locomotive. This master mode electric ω is electrically connected to the -circuit control device 3G. The main control module 1G can transmit a trigger signal to the circuit control device 30. When the circuit control device 3 receives a trigger signal, the circuit control device 30 can supply power to the gate to permit the user to start the vehicle. The power of the master group H) is supplied by the power source 18. This power source 18 can be the battery (battery) of the locomotive. Because the locomotive is always starting to generate pulse currents in an instant. Therefore, the power supply 18 needs to be processed by the _ way 19 to provide a clean and stable voltage of the main control module (4). In addition to the function of the 敎 voltage, the voltage stabilizing circuit 19 can also remove the interference of the electrostatic discharge. The RFID transmitter 12 can be a RRDD Reader for transmitting RFID low-mobility. ^Bluetooth Receipt 14 is more in line with the Bluetooth communication specifications - the secret components. Curry _ 丨 2, the first material "the device 微处理器 and the microprocessor 16 can be integrated into a single β y system on the chip integrated circuit (SOC IC), 哎熹wv ^ 疋Each is independently a separate integrated circuit (1C). The microprocessor 16 is connected to __15. When the user wire changes the state of the switch 15 as follows, 〇 FF, _ _ ό ” 贞 贞 贞 贞 即 即 即 即 即 即 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 传送 微处理器The device 12 and the first Bluetooth transceiver 14. At this time, the coffee transmitter U will send a low frequency start signal and the first Bluetooth transceiver 14 will search for other Bluetooth transceivers nearby. (10) According to the 2nd ® The system block diagram of the first embodiment of the sub-control module proposed by the author. The sub-control module 2 includes a receiver 22 (also referred to as a second RFID component) and a second Bluetooth transceiver. The device 24 (also referred to as the second Bluetooth component) and the micro-processing pirate 26 〇 sub-control module 20 can be disposed on a non-contact key, and the sub-control module 20 is used with the main control module 1. The power of the sub-control module 20 is supplied by the power source 25. The power source 25 can be supplied by a dry battery, a clock battery or a mercury battery, and then converted to a sub-mode by DC/DC conversion. Group 2 〇, that is, 10 receiver 22 can be a radio frequency identification reader (RFEDta illusion. The second Bluetooth transmission and reception ° ° 24 is 合 合 芽 bud communication a wireless transmission component of the cell, see the receiver 22, the second Bluetooth transceiver 24 and the microprocessor 26 can be integrated into a single chip integrated circuit 'SOC 1C', or Each of the modules can be independently a separate integrated circuit (IC). The microprocessor 26 is electrically connected to the rfid receiver 22 and the second Bluetooth transceiver 24. The microprocessor 26 is normally in the shutdown mode (〇ffm〇de When the melon receiver r receives the low frequency start signal transmitted by the RFID transmitter n 12 and the identification is correct, the RFID receiver 22 transmits an arousal signal to the microprocessor 26. At this time, the microprocessor 26 will The second return transceiver 24 is turned on. The second county transceiver will receive the search signal of the first-bluetooth transceiver 14 and then reply-encrypt the signal to the first bluetooth transceiver 14. The first-blue transceiver transceiver 14 will After the identification of the thermal error, the main control module 10 can transmit a trigger signal to the circuit control device Deng to complete the above-mentioned permission for the user to start the vehicle, permit the user to open the door or directly launch the vehicle, etc. v master mode The detailed operation mode of 1G and the sub-control module 2() is described in detail later. The reference to the third figure is based on the second embodiment of the sub-control module proposed by the author. 2〇 includes the receiver 22, the second Bluetooth transceiver 24, the micro-processing pirate 26, the power source 25 and the button 28. In this case, after the engine is in the state of permitting the engine, when the button 28 is pressed, The s'j control module 20 can control the main control module 1 to operate in a pairable mode. In the pairable mode, the first Bluetooth transceiver 14 of the main control module 1G can be combined with other Bluetooth transceivers. The devices are paired. After the pairing is completed, other devices with Bluetooth transceivers can have _'s as a backup scale, and this device has a Bluetooth transceiver, for example, a mobile phone or a personal digital assistant (Personal Digital) Assistance, PDA). «Moon tea, f 4 map』 is a system block diagram of the third embodiment of the sub-control module proposed by the author. The sub-control module 20 includes an RHD receiver 22, a second Bluetooth transceiver 24, a microprocessor 26, a power source 25, buttons 28, and indicator lights 29. In addition, the sub-control module 20 can read the set pairing parameters. Pairing parameters, for example, can be (1) slaves other materials (four) device branch f to enter the password; (2) other Bluetooth transceivers can be used to match the volume and excellent silk order; (3) shirts are allowed to transmit vehicle auxiliary information to other Bluetooth transceiver. The indicator light 29 is when the microprocessor 26 detects that the power supply supplied by the power source 25 is lower than a threshold value, the indicator light 29 will continue to _-segment_ to remind the user that the battery should be replaced. The above "1st" to "4th" diagrams schematically illustrate the hardware architecture of the main control module 1A and the sub-control module 20. The main group 1 () and the sub-control 2 () are operated in detail in the manner of "5th" to "8th". The "5th" is a flow chart of the first embodiment of the non-contact control method proposed by the author. In the step sioi, when the state of the switch 15 is changed, the switch 15 transmits a start-up micro-processing g16. The micro-service 16_ will open the 1 transmitter u and the first Bluetooth transceiver 14. In step S102, after the clear transmitter 12 is turned on, a low frequency «91575 start signal is generated. On the other hand, in step S201, the RFID receiver 22 receives the low frequency start signal. When the RPID receives the H 22 connection and the stimuli, the first low frequency start signal is the _ preset value. This i-ray is considered as the first level of authentication to unlock. If the identification is correct, the microprocessor 26 will convert from the original shutdown mode (〇ffm〇de) to the active mode (active m〇de). Thereafter, at step S2, the microprocessor 26 turns on the second Bluetooth transceiver 24. Because the microprocessor% of the corpse will not turn into a tilt after receiving the low frequency start signal, the other parts of the time can be kept in the no-power shutdown mode. * In step S103, the first-bluetooth transceiver 14 sends a search signal to search for its second transmission and reception [in the step curtain n blue collection #||24 after receiving the search signal, it will be returned - a plus (4) Expected to be the first-blue transceiver transceiver. In step SUM, the first Bluetooth transceiver _M decrypts the encrypted data and recognizes whether the decrypted data meets - pre-difficult. Here, the _ knowledge mechanism can be regarded as the second layer of authentication unlock. . If the identification is correct, the first Bluetooth transceiver will notify the second Bluetooth transceiver 24 that the authentication procedure has been completed. In step S105, the first Bluetooth transceiver determines whether the authentication is completed. . If yes, step S106 is executed, that is, the main control module 1 can transmit a trigger signal to the circuit control relay 3, and the mail can be used to enable the user to turn on the vehicle or directly launch the vehicle. And, in step sl7, the muscle transmitter M391575 12 is turned off. If not, the representative switch 15 may be accidentally touched, or the first Bluetooth transceiver 14 may not be able to find other Bluetooth transceivers. Therefore, the first Bluetooth transceiver 14 and the RFID transmitter 12 are turned off at this time. On the other hand, in step S204, the second Bluetooth transceiver 24 determines whether or not the authentication is completed. If so, step S205' is executed and the RFID receiver 22 is turned off. When the receiver 22 is turned off, it is in a state of power saving and still receives signals. If not, it means that the sub-control module 20 may be turned on by an erroneous signal. Therefore, the RFID receiver 22 and the second Bluetooth transceiver 24 can be turned off at this time, and the microprocessor 26 can be switched to the off mode (0ff. Please refer to FIG. 6 for the non-contact type proposed by the author. Control method; flow chart of the second embodiment. In order to reduce the tactile error _ probability, ^
步驟S1G5中’若是第—次判斷為否時,微處理器16會開始計時 若是當微處刻16計時的結果小於—轉—預定時間時,則會聋 行步驟S105的判斷式。是以,只要是在第一預定時間時之内^ 第-藍芽收發H 14與第二藍芽收發器24的認證,以降低誤= 無法完成的機率。同樣地,步驟S204也具有相同機制。 ·' 請參照『第7圖』’係為本創作所提出之非接觸式控制方法 第三實施例之程圖。『第7圖』中所述的步驟係接續工之 的步驟S201至步驟S206與步驟S1〇i至步驟幻⑽。 』 在步驟咖中,微處理⑽概否崎顺鍵訊號 11 MJ91575 若是使用者按下按鍵28,魏理II 26會接㈣此-按鍵訊號。 之後,在步驟S208巾,利用第二藍芽收發器24傳送一切換 模式訊號。而在步驟S1G9中,第—藍芽收發器14即可接收此切 換模式訊號。 在乂驟siii中,在接收到切換模式訊號之後,主控模組1〇 可操作於—可§_賦。在可配對模式之下,主控模組⑺可與其 他具有藍芽收發器的裝置進行配對。在配對完成後,其他具有藍 芽收發器的裝置即可具有__限,以作為備份的鱗。 在步驟S2U中,在第二藍芽收發器24傳送完切換模式訊號 之後’即可關閉此第二藍芽收發器24,以節省電能的消耗。同樣 地’在步驟S112 +,第-藍芽收發器14在完成與其他藍芽收發 器配對後,第一藍芽收發器14即可被關閉。 明參知、『第8圖』,係為本創作所提出之非接觸式控制方法之 第四實施例之流程I為了進—步設定其他藍芽收發器的權限, 可由副控模組20來設定配對參數。 在步驟S209中’讀取輯參數,並由微處理器%雌收。 而在步驟S210中,配對參數可由第二藍芽收發器%傳送。 另一方面,在步驟sll〇中,第一藍芽收發器14會接收此— 配對參數。並在步驟S111中,第—藍芽收發器14根據此配對 參數’與其他藍芽收發器進行匹配。如此,將可以限制其他的藍 牙收發1§是否需錄人密碼’或是其他的藍芽收發器可配對的數 里及優先順序,亦或是其他的藍芽收發器可讀取車輛資訊。 12 M391575In the step S1G5, if the first judgment is negative, the microprocessor 16 starts counting. If the result of the micro-timer 16 timing is less than - turn - the predetermined time, the judgment formula of step S105 is performed. Therefore, as long as it is within the first predetermined time, the authentication of the first-blue transmitter transceiver H 14 and the second Bluetooth transceiver 24 reduces the probability that the error = cannot be completed. Likewise, step S204 also has the same mechanism. · 'Please refer to Figure 7'. The non-contact control method proposed by the author is the process diagram of the third embodiment. The steps described in "Fig. 7" are continued from step S201 to step S206 and step S1〇i to step (10). In the step coffee, the micro-processing (10) is no matter whether the button is pressed or not. 11 MJ91575 If the user presses the button 28, the Wei Li II 26 will connect (4) the button signal. Thereafter, in step S208, a switching mode signal is transmitted by the second Bluetooth transceiver 24. In step S1G9, the first Bluetooth transceiver 14 can receive the switching mode signal. In step siii, after receiving the switching mode signal, the main control module 1 〇 is operable to be _ _ _. In the pairable mode, the master module (7) can be paired with other devices that have a Bluetooth transceiver. After the pairing is completed, other devices with Bluetooth transceivers can have a __ limit as a backup scale. In step S2U, the second Bluetooth transceiver 24 can be turned off after the second Bluetooth transceiver 24 transmits the switching mode signal to save power consumption. Similarly, in step S112+, after the first-bluetooth transceiver 14 is paired with other Bluetooth transceivers, the first Bluetooth transceiver 14 can be turned off. Ming Shenzhi, "8th picture" is the flow I of the fourth embodiment of the contactless control method proposed by the author, in order to further set the permissions of other Bluetooth transceivers, which can be obtained by the sub-control module 20 Set the pairing parameters. The parameter is read in step S209 and received by the microprocessor %. And in step S210, the pairing parameter can be transmitted by the second Bluetooth transceiver %. On the other hand, in step s11, the first Bluetooth transceiver 14 receives this - pairing parameter. And in step S111, the first-bluetooth transceiver 14 matches the other Bluetooth transceivers according to this pairing parameter. In this way, it will be possible to limit whether other Bluetooth sends and receives 1 § whether a password is required or the number and priority of other Bluetooth transceivers to be paired, or other Bluetooth transceivers can read vehicle information. 12 M391575
綜合以上所述,本創作所提出之非接觸式控制裝置與方法, 可由主控模組ίο主動地去開啟副控模組2〇,使副控模組2〇平常 可保持於關職式’以節省電能的消耗^此外,接收器 可先辨識低倾動訊號是^無誤,且第―藍芽收發^ M亦會對於 加魏號進行觸。換言之,此非接觸式控繼置與方法,需要 進行雙重_正(第-層織解额第二層認證觸),以降低被盜 錄的機率,而進一步地提高使用上的安全性。 除此之外,本創鑛提出之非接觸讀繼置與方法更可以 使第-藍芽收發器Μ與其他藍芽收發器進行配對,使其他藍芽收 發器具有開鎖的權限,作為備份的錄匙。而因為配對過程係由主 控模组Κ)的第-藍芽收發器14所進行,因此任何具有其他藍芽 收發器的裝置,比如說-般的藍芽手機,在配對完錢,皆可作 錢份鱗。而本_亦提蚊叫控池Μ的參數,以進一牛 管理這些備份鑰匙之權限,來提昇安全性。 / 所附之申請專利範圍 雜本㈣以前述之實施_露如上,然其並_以限定本 ^乍。在不脫離本創作之精神和範圍内,所為之更動與 屬本創作之專鄉魏圍。糊作轉定之保 考 【圖式簡單說明】 方塊圖; 實施例系統 13 M391575 『第3圖』係為本創作所提出 方塊圖; 『第4圖』係為本創作所提出 方塊圖; 『第5圖』係為本創作所提出 施例之流程圖; 『第6圖』係為本創作所提出 施例之流程圖; 『第7圖』係為本創作所提出 施例之流程圖;以及 『第8圖』係為本創作所提出 施例之流程圖。 的副控模组㈣二實施例系统 的副控模㈣三實施例系统 之非接觸式控制方法之第〜7 之非接觸式控制方法之第二實 之非接觸式控制方法之第三實 之非接觸式控制方法之第四實 【主要元件符號說明】 10 主控模組 12 RFID發射器 14 第一藍芽收發器 15 開關 16 微處理器 18 電源 19 穩壓電路 20 副控模組 22 接收器 M391575 24 第二藍芽收發器 25 電源 26 微處理器 28 按鍵 29 指不燈 30 電路控制裝置In summary, the non-contact control device and method proposed by the present invention can actively open the sub-control module 2〇 by the main control module ίο, so that the sub-control module 2 can normally remain in the off-duty mode. In order to save power consumption, in addition, the receiver can first recognize that the low tilt signal is correct, and the first Bluetooth transceiver will also touch the plus sign. In other words, this non-contact control relay and method requires a double_positive (layer-layer weaving second layer authentication touch) to reduce the chance of being stolen, and further improve the security of use. In addition, the non-contact read relay and method proposed by this mine can make the first-blue transceiver transceiver pair with other Bluetooth transceivers, so that other Bluetooth transceivers have the right to unlock, as a backup. Recording key. And because the pairing process is performed by the first-to-bluetooth transceiver 14 of the main control module, any device with other Bluetooth transceivers, such as a Bluetooth mobile phone, can be paired with money. Make money and scale. And this _ also mentions the parameters of the control pool, to manage the backup keys to improve the security. / Included in the scope of the patent application Miscellaneous (4) in the above-mentioned implementation _ as shown above, and then _ to limit this. Without departing from the spirit and scope of this creation, it is changed to Wei Wei, a special hometown of this creation. The proof of the paste for the transfer [simplified description of the figure] block diagram; the embodiment system 13 M391575 "3rd picture" is the block diagram proposed by the author; "4th picture" is the block diagram proposed by the author; Figure 5 is a flow chart of the example proposed by the author; "Figure 6" is a flow chart of the example proposed by the author; "Figure 7" is a flow chart of the example proposed by the author; "Fig. 8" is a flow chart of the example proposed by the author. Sub-control module (4) Second embodiment Sub-control module of the system (4) Three-phase non-contact control method of the system No. 7 of the non-contact control method of the second real non-contact control method The fourth method of the non-contact control method [main symbol description] 10 main control module 12 RFID transmitter 14 first Bluetooth transceiver 15 switch 16 microprocessor 18 power supply 19 voltage regulator circuit 20 sub-control module 22 receiving M391575 24 Second Bluetooth Transceiver 25 Power Supply 26 Microprocessor 28 Button 29 No Light 30 Circuit Control
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