拥、新型說明: 【創作所屬之技術領域】Support, new type description: [Technical field to which the creation belongs]
、^作係關於一種無線收發裝置,尤其關於一種具有膚 式辨線麥克風與無線耳機之無線收發裝置。 先前技術】 環Sr,行動裝置均利用麥克風來進行聲音輸入,而背景 ^ 、二雜往往嚴重影響通話品質與效率。此外,在行動 耳、g使用耳機與麥克風來傳遞信號,而目前市面上之The invention relates to a wireless transceiver device, and more particularly to a wireless transceiver device with a skin-type microphone and a wireless headset. Prior technology] In the case of Sr, mobile devices use microphones for voice input, and background noise and noise often seriously affect call quality and efficiency. In addition, headsets and microphones are used in mobile ears and g to transmit signals.
及麥克風間均依賴有線電子線路來傳輸信號。然而, 使用有纟♦兩2 A 电子、、泉路傳輸信號往往造成使用者使用不便。本 創作 < 無線收發裝置可克服使用上述麥克風與耳機之不 便。 【創作内容】 w 】作之目的在於使用一無線收發裝置以接收來自通信 的聲Θ k號,並藉由該無線收發裝置將聲音信號傳送 至通作罝; . 一 口 。播線收發裝置包含:無線收發單元、轉接單 一…、、泉接收單元及通信單元。其中,無線收發單元可將 使用者<聲音轉換為一第一信號,且通信單元可發出一第 L就备播線收發裝置處於一第一狀態時,轉接單元使 用、…、、、泉通k方法自無線收發單元接收第一信號,轉接單 疋並進步傳送第一信號至通信單元;當無線收發裝置處 於第一狀態時,轉接單元使用無線通信方法自通信單元 接收第二信號’並藉由無線收發單元將第二信號傳送至無 線接收單元。 P:\pcc\89516.doc M252198 【實施方式】 星一實施例 叫參考圖1 ’圖1為本創作第一實施例之無線收發裝置 1〇〇之示意圖。無線收發裝置i⑼包含:—無線收發單元 110、轉接單元120、無線接收單元13〇及通信單元14〇。 無線收發單元110可將使用者之聲音轉換為一第一信號 卜且通信單元U0可發出一第二信號2。當無線收發裝置 1〇〇處於一第一狀態時,轉接單元12〇使用一無線通信方 法自無線收發單元110接收第—信號丨,轉接單元12〇並進 一步傳送第一信號1至通信單元14〇。當無線收發裝置1〇〇 處於一第二狀態時,轉接單元12〇使用無線通信方法自通 信單元140接收第二信號2,並藉由無線收發單元11〇將第 一信號2傳送至無線接收單元1 3 〇。 上述實施例中,通信單元140為一行動電話、無線電或 其他通信裝置,且無線接收單元130為一無線耳機。為更 明確闡述本實施例,本創作將結合3、4A及5A來進一步 說明圖1無線收發裝置1〇〇中之構成及運作。 請參考圖3,無線接收單元300 (對應圖i及圖2中無 線接收單元130、230)包含:語音輸出裝置31〇、編碼轉 譯器320、微控制元件33〇、無線單向接收模組34〇、收訊 天線345、電池360以及充電電路37〇。請參考圖‘A,無 線收發單元400 (對應圖1中無線收發單元11 〇 )包含··膚 觸式無線麥克風410、編碼轉譯器42〇、微控制裝置“ο、 無線發送模組440、發訊天線445、無線收發模組450、收 P:\pcc\89516.doc -6- M252198 發訊天線455、電池460以及充電電路47〇。圖5A為通信 單元51()(對應圖lf)及轉接單元5〇〇(對應圖1中轉接 單元120)之示意圖。轉接單元500包含:編碼轉譯器52〇、 微控制裝置530、無線收發模組540、收發訊天線545、電 池560以及充電電路570。 當通信單元510收訊後,將信號依序傳送至編碼轉譯器 520、微控制裝置530以及無線收發模組54〇,最後透過收 發訊天線545將信號傳送至無線收發單元4〇〇之收發訊天 線455。收發訊天線455接收信號後,將信號依序傳送至 微控制裝置430以及無線發送模組440,最後透過發訊天 線445將信號傳送至無線接收單元3〇〇之收訊天線345。 收訊天線345接收信號後,將信號依序傳送至無線單向接 收模組340、微控制元件330以及編碼轉譯器32〇,最後透 過語音輸出裝置310發聲。此時使用者即可藉由語音輸出 裝置3 10 (如一無線耳機)來收聽聲音。 當使用者發聲時,膚觸式無線麥克風41〇將信號依序傳 送至編碼轉譯器420、微控制裝置430以及無線收發模組 45〇,最後透過收發訊天線455將信號傳送至轉接單元5〇〇 <收發訊天線545。收發訊天線545接收信號後,將信號 依序傳送至無線收發模組54〇、微控制裝置53〇以及編碼 轉譯器520,最後由編碼轉譯器52〇將信號傳送至通信單 元 51〇 〇 I二實施例 請參考圖2,圖2為本創作第二實施例之無線收發裝置 P:\pcc\895l6.doc M252198 細之示意圖。無線收發裝置包含:_無線發射單元 210、轉接單元22〇、無線接收單元23〇及通信單元。 無線發射單元21G可將使用者之聲音轉換為—第一信號 1’且通信單it 240可發出—第二信號2。當無線收發裝置 處於-第—狀態時,轉接單元22()使用—無線通信方 法自無線發射單元210接收第—信號i,並進—步傳送第 仏號1至通信單7〇 240。當無線收發裝置2〇〇處於一第 狀J時’轉接單元220使用無線通信方法自通信單元24〇 接收第二信號2,並將第二信號2傳送至無線接收單元23〇。 上述實施例中,通信單元24〇為一行動電話、無線電或 ,、他通L裝置,且*線接收單元23〇為一無線耳機。為更 明確閣述本實施例,本創作將結合3、4B & 5B來進一步 說明圖2無線收發裝置200中之構成及運作。 μ參考圖3,無線接收單元3〇〇 (對應圖i及圖2中無 線接收單元130、230)包含:語音輸出裝置31〇、編碼轉 譯器320、微控制元件33〇、無線單向接收模組34〇、收訊 天線345、電池360以及充電電路37〇。請參考圖4B,無 線發射單元400 (對應圖2中無線發射單元21〇)包含: 膚觸式無線麥克風410、編碼轉譯器42〇、微控制裝置43〇、 捭線收發模組450、收發訊天線455、電池460以及充電電 路470。圖5B為通信單元51〇 (對應圖2中通信單元24〇) 及轉接單元500 (對應圖二中轉接單元22〇)之示意圖, 其中轉接單元500包含··編碼轉譯器52〇、微控制裝置53〇、 播線收發模組540、收發訊天線545、無線發送模組550、 P:\pcc\89516.doc M252198 發訊天線555、電池560以及充電電路570。 當通信單元510收訊後,將信號依序傳送至編碼轉譯器 520、微控制裝置530以及無線發送模組550,最後透過發 訊天線555將信號傳送至無線接收單元3〇〇之收訊天線 345。收訊天線345接收信號後,將信號依序傳送至無線單 、 向接收模組340、微控制元件330以及編碼轉譯器320,最 ^ 後透過語音輸出裝置310發聲。此時使用者即可藉由語音 輸出裝置3 10 (如一無線耳機)來收聽聲音。 當使用者發聲時,膚觸式無線麥克風41〇將信號依序傳 _ 运至編碼轉譯器420、微控制裝置430以及無線收發模組 450,最後透過收發訊天線455將信號傳送至轉接單元5〇〇 . <收發訊天線545。收發訊天線545接收信號後,將信號 依序傳送至無線收發模組54〇、微控制裝置53〇以及編碼 轉譯器520,最後由編碼轉譯器52〇將信號傳送至通信單 元 510 〇 上述之第一實施例與第二實施例,其差別在於第二實施 例中所使用之無線耳機不需透過無線收發單元而直接接收 來自轉接單元之信號。另外,本創作之另一實施例可進一 步將上述二實施例中之轉接單元及通信單元相結合,以符 合了般行動通信裝置對於減小體積之要求,並增加其使用 ^ <便利性。例如將一藍芽模組内建於一行動電話中,可‘ 提供無線通信之功能及克服使用傳統行動電話之耳機麥克 風時的不便。 雖然上述說明包括許多特定細節,這些不應建構以限制 P:\p_9516.doc M252198 本創作的la而僅作為提供本創作—些可能實施例的說 明。 一 因此’本創作的範疇應由後附申請專利範圍及均等物加 以判定,而非藉由所提供的範例。 【圖式簡單說明】 圖1說明本創作無線收發裝置之第一實施例; 圖2說明本創作無線收發裝置之第二實施例; 圖3說明本創作無線收發裝置之無線接收單元; 圖4A說明本創作無線收發裝置之第一實施例之無線收 發單元; 圖4B說明本創作無線收發裝置之第二實施例之無線發 射單元; 圖5A說明本創作無線收發裝置之第一實施例之轉接單 元及通信單元; 圖5B說明本創作無線收發裝置之第二實施例之轉接單 元及通信單元; 【圖式代表符號說明】 1 第一信號 2 第二信號 100 無線收發裝置 110 無線收發單元 120 轉接單元 130 無線接收單元 140 通信單元 P:\pcc\89516.doc -10 - M252198 200 無線收發裝置 210 無線發射單元 220 轉接單元 230 無線接收單元 240 通信單元 300 無線接收單元 310 語音輸出裝置 320 編碼轉譯器 330 微控制元件 340 無線單向接收模組 345 收訊天線 360 電池 370 充電電路 400 無線收發單元/無線發射單元 410 膚觸式無線麥克風 420 編譯轉譯器 430 微控制裝置 440 無線發送模組 445 發訊天線 450 無線收發模組 455 收發訊天線 460 電池 470 充電電路 500 轉接單元 P:\pcc\89516.doc -11 - M252198 510 520 530 540 545 550 555 560 570 行動裝置 編碼轉譯器 微控制裝置 無線收發模組 收發訊天線 無線發送模組 發訊天線 電池 充電電路 P:\pcc\89516.doc -12And the microphones rely on wired electronic circuits to transmit signals. However, the use of two 2 A electronic, spring transmission signals often causes inconvenience to users. The present invention < wireless transmitting and receiving device can overcome the inconvenience of using the above microphone and earphone. [Creation content] w] The purpose of the work is to use a wireless transceiver device to receive the sound Θ k number from the communication, and transmit the sound signal to Tongzuo through the wireless transceiver device; The broadcast line transmitting and receiving device includes: a wireless transmitting and receiving unit, a transfer order ..., a receiving unit and a communication unit. Wherein, the wireless transceiver unit can convert the user ' s voice into a first signal, and the communication unit can send an L-th ready-to-broadcast line transceiver device in a first state, the transfer unit uses, ... ,,, The k-method receives the first signal from the wireless transceiver unit, transfers the unit and progressively transmits the first signal to the communication unit; when the wireless transceiver device is in the first state, the transfer unit receives the second signal from the communication unit using the wireless communication method 'And the second signal is transmitted to the wireless receiving unit by the wireless transceiver unit. P: \ pcc \ 89516.doc M252198 [Embodiment] An example of a satellite is called with reference to FIG. 1 ′ FIG. 1 is a schematic diagram of a wireless transmitting and receiving device 100 according to a first embodiment of the present invention. The wireless transceiving device i⑼ includes:-a wireless transceiving unit 110, a switching unit 120, a wireless receiving unit 13o, and a communication unit 14o. The wireless transceiver unit 110 can convert the user's voice into a first signal and the communication unit U0 can send a second signal 2. When the wireless transceiver device 100 is in a first state, the switching unit 120 receives a first signal from the wireless transceiver unit 110 using a wireless communication method, and the switching unit 1220 further transmits the first signal 1 to the communication unit. 14〇. When the wireless transceiver device 100 is in a second state, the switching unit 120 receives the second signal 2 from the communication unit 140 using a wireless communication method, and transmits the first signal 2 to the wireless receiver through the wireless transceiver unit 110. Unit 1 3 0. In the above embodiment, the communication unit 140 is a mobile phone, a radio or other communication device, and the wireless receiving unit 130 is a wireless headset. In order to explain the embodiment more clearly, the composition and operation of the wireless transceiver device 100 in FIG. 1 will be further explained with reference to 3, 4A, and 5A. Please refer to FIG. 3. The wireless receiving unit 300 (corresponding to the wireless receiving units 130 and 230 in FIG. 1 and FIG. 2) includes: a voice output device 31o, a code translator 320, a micro-control element 33o, and a wireless one-way receiving module 34. 〇, receiving antenna 345, battery 360 and charging circuit 37. Please refer to FIG. 'A. The wireless transceiver unit 400 (corresponding to the wireless transceiver unit 11 in FIG. 1) includes a skin-contact wireless microphone 410, a code translator 42o, a micro-control device "ο, a wireless transmission module 440, a transmitter Antenna 445, wireless transceiver module 450, receiving P: \ pcc \ 89516.doc -6- M252198 transmitting antenna 455, battery 460 and charging circuit 47. Fig. 5A is the communication unit 51 () (corresponding to Fig. Lf) and Schematic diagram of the switching unit 500 (corresponding to the switching unit 120 in FIG. 1). The switching unit 500 includes: a code translator 52, a micro-control device 530, a wireless transceiver module 540, a transceiver antenna 545, a battery 560, and Charging circuit 570. After the communication unit 510 receives the signal, it sequentially transmits the signal to the code translator 520, the microcontroller 530, and the wireless transceiver module 54. Finally, the signal is transmitted to the wireless transceiver unit 4 through the transceiver antenna 545. 〇Receiving antenna 455. After receiving the signal, the transmitting antenna 455 sequentially transmits the signal to the micro control device 430 and the wireless transmitting module 440, and finally transmits the signal to the wireless receiving unit 300 through the transmitting antenna 445. Antenna 345 After receiving the signal, the receiving antenna 345 transmits the signal to the wireless one-way receiving module 340, the micro-controlling element 330, and the code translator 32 in order, and finally makes a sound through the voice output device 310. At this time, the user can use the A voice output device 3 10 (such as a wireless headset) is used to listen to the sound. When the user speaks, the skin-touch wireless microphone 41 transmits the signals to the code translator 420, the micro-control device 430, and the wireless transceiver module 45. Finally, the signal is transmitted to the adapter unit 500 through the transceiver antenna 455 < the transceiver antenna 545. After receiving the signal, the transceiver antenna 545 sequentially transmits the signal to the wireless transceiver module 54o, the micro control device 53o, and The code translator 520, and finally the signal is transmitted to the communication unit 5100 by the code translator 52. For an embodiment, please refer to FIG. 2, which is a wireless transmitting and receiving device P: \ pcc \ 895l6 of the second embodiment of the creation. doc M252198 detailed diagram. The wireless transceiver includes: _ wireless transmitting unit 210, switching unit 22, wireless receiving unit 23 and communication unit. The wireless transmitting unit 21G can send users The sound is converted into—the first signal 1 ′ and the communication sheet it 240 can issue—the second signal 2. When the wireless transceiver is in the—first—state, the switching unit 22 () uses—the wireless communication method—from the wireless transmitting unit 210 Receiving the first signal i, and further transmitting the first number to the communication order 70240. When the wireless transceiver 200 is in the first state J, the switching unit 220 receives the first signal from the communication unit 24 using the wireless communication method. The second signal 2 is transmitted to the wireless receiving unit 23. In the above embodiment, the communication unit 24o is a mobile phone, a radio or a mobile phone, and the * line receiving unit 23o is a wireless headset. In order to describe the present embodiment more clearly, the composition and operation of the wireless transceiver device 200 in FIG. 2 will be further explained in conjunction with 3, 4B & 5B. μ Referring to FIG. 3, the wireless receiving unit 300 (corresponding to the wireless receiving units 130 and 230 in FIG. 1 and FIG. 2) includes: a voice output device 31o, a code translator 320, a micro-control element 33o, and a wireless unidirectional receiving mode. Group 34, receiving antenna 345, battery 360 and charging circuit 37. Please refer to FIG. 4B. The wireless transmitting unit 400 (corresponding to the wireless transmitting unit 21 in FIG. 2) includes: a skin-touch wireless microphone 410, a code translator 42, a micro-control device 43, a wireless transceiver module 450, and a transceiver An antenna 455, a battery 460, and a charging circuit 470. FIG. 5B is a schematic diagram of the communication unit 51 (corresponding to the communication unit 24 in FIG. 2) and the transfer unit 500 (corresponding to the transfer unit 22 in FIG. 2). The transfer unit 500 includes a code translator 52, The micro control device 53, the broadcast line transceiver module 540, the transceiver antenna 545, the wireless transmission module 550, P: \ pcc \ 89516.doc M252198 the antenna 555, the battery 560, and the charging circuit 570. After the communication unit 510 receives the signal, it sequentially transmits the signal to the code translator 520, the micro-control device 530, and the wireless transmitting module 550, and finally transmits the signal to the receiving antenna of the wireless receiving unit 300 through the transmitting antenna 555. 345. After receiving the signal, the receiving antenna 345 sequentially transmits the signal to the wireless module, sends it to the receiving module 340, the micro-controlling element 330, and the code translator 320, and finally makes a sound through the voice output device 310. At this time, the user can listen to the sound through the voice output device 3 10 (such as a wireless headset). When the user makes a sound, the skin-touch wireless microphone 41 transmits the signals sequentially to the code translator 420, the micro-control device 430, and the wireless transceiver module 450, and finally transmits the signal to the transfer unit through the transceiver antenna 455 500. < Transmitting antenna 545. After receiving and transmitting the signal, the transmitting and receiving antenna 545 sequentially transmits the signal to the wireless transmitting and receiving module 54o, the micro control device 53o, and the code translator 520. Finally, the code translator 52o transmits the signal to the communication unit 510. One embodiment differs from the second embodiment in that the wireless headset used in the second embodiment does not need to pass through the wireless transceiver unit and directly receives signals from the adapter unit. In addition, another embodiment of the present invention can further combine the conversion unit and the communication unit in the above two embodiments to meet the requirements of a general mobile communication device for reducing the size and increase its use ^ < convenience . For example, a Bluetooth module is built into a mobile phone, which can ‘provide wireless communication functions and overcome the inconvenience of using a traditional mobile phone ’s headset microphone. Although the above description includes many specific details, these should not be construed to limit P: \ p_9516.doc M252198 This work is only provided as an illustration of some possible embodiments of this work. -Therefore, the scope of this creation should be determined by the scope of patent application and equivalents attached, rather than by the examples provided. [Brief description of the drawings] FIG. 1 illustrates a first embodiment of the present wireless transmitting and receiving device; FIG. 2 illustrates a second embodiment of the present wireless transmitting and receiving device; FIG. 3 illustrates a wireless receiving unit of the present wireless transmitting and receiving device; FIG. 4A illustrates The wireless transceiver unit of the first embodiment of the wireless transceiver device of the present invention; FIG. 4B illustrates the wireless transmitter unit of the second embodiment of the wireless transceiver device of the present invention; FIG. 5A illustrates the transfer unit of the first embodiment of the wireless transmitter device of the present invention And communication unit; Figure 5B illustrates the second embodiment of the creative wireless transceiver device transfer unit and communication unit; [illustration of representative symbols] 1 first signal 2 second signal 100 wireless transceiver device 110 wireless transceiver unit 120 turn Receiving unit 130 wireless receiving unit 140 communication unit P: \ pcc \ 89516.doc -10-M252198 200 wireless transceiver 210 wireless transmitting unit 220 switching unit 230 wireless receiving unit 240 communication unit 300 wireless receiving unit 310 voice output device 320 encoding Translator 330 Micro control element 340 Wireless one-way receiving module 345 Receiving antenna 3 60 Battery 370 Charging circuit 400 Wireless transceiver unit / Wireless transmitting unit 410 Skin-touch wireless microphone 420 Translator 430 Microcontroller 440 Wireless transmitting module 445 Transmitting antenna 450 Wireless transceiver module 455 Transceiving antenna 460 Battery 470 Charging circuit 500 Adapter Unit P: \ pcc \ 89516.doc -11-M252198 510 520 530 540 545 550 555 560 570 570 Mobile Device Code Translator Microcontroller Wireless Transceiver Module Transceiver Antenna Wireless Transmitter Module Antenna Battery Charging Circuit P: \ pcc \ 89516.doc -12