TWI651891B - 功率調整模組及具有該功率調整模組的穿戴裝置 - Google Patents
功率調整模組及具有該功率調整模組的穿戴裝置 Download PDFInfo
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Abstract
本發明提供一種功率調整模組,應用於一穿戴裝置,該功率調整模組包括感測器、CPU,所述感測器將感測訊號傳送至所述CPU,所述CPU根據感測訊號判斷所述穿戴裝置處於穿戴模式或自由模式。若處於穿戴模式,則所述CPU觸發一增大天線傳導功率的指令;若處於自由模式,則所述CPU觸發一降低天線傳導功率的指令。本發明還提供一種應用該功率調整模組的穿戴裝置。本發明提供的穿戴裝置在穿戴模式下,增大天線傳導功率,能維持良好輻射效果;在自由模式下,減小天線傳導功率,能藉由電磁波吸收比值(SAR)的規範。
Description
本發明涉及一種功率調整模組及具有該功率調整模組的穿戴裝置。
通訊委員會規範對穿戴裝置的電磁波吸收比值(SAR)的測試,需進行穿戴裝置在自由模式和穿戴模式兩個模式的測試。目前,如何使穿戴裝置在自由模式下降低天線輻射功率,又能維持穿戴裝置良好輻射效果,且同時又能藉由電磁波吸收比值(SAR)的規範這一問題尚未得到很好的解決。
鑒於以上內容,有必要提供一種功率調整模組,該功率調整模組可在自由模式下降低天線輻射功率,藉由電磁波吸收比值(SAR)的規範;在穿戴模式下增大天線輻射功率,能維持良好輻射效果。
還有必要還提供一種包括上述功率調整模組的穿戴裝置。
一種功率調整模組,應用於一穿戴裝置,該功率調整模組包括感測器、CPU,所述感測器將感測訊號傳送至所述CPU,所述CPU根據感測訊號判斷所述穿戴裝置處於穿戴模式或自由模式。若處於穿戴模式,則所述CPU觸發一增大天線傳導功率的指令;
若處於自由模式,則所述CPU觸發一降低天線傳導功率的指令。
一種穿戴裝置,包括射頻天線及功率調整模組,該功率調整模組用於控制射頻天線的天線傳導功率,該功率調整模組包括感測器、CPU,所述感測器將感測訊號傳送至所述CPU,所述CPU根據感測訊號判斷所述穿戴裝置處於穿戴模式或自由模式若處於穿戴模式,則所述CPU觸發一增大天線傳導功率的指令;若處於自由模式,則所述CPU觸發一降低天線傳導功率的指令。
本發明提供的穿戴裝置在穿戴模式下,增大天線傳導功率,能維持良好輻射效果;在自由模式下,減小天線傳導功率,能藉由電磁波吸收比值(SAR)的規範。
100‧‧‧穿戴裝置
10‧‧‧主體
20‧‧‧螢幕
30‧‧‧背蓋
40‧‧‧穿戴部
11‧‧‧功率調整模組
12‧‧‧射頻天線
13‧‧‧感測器
14‧‧‧CPU
100‧‧‧穿戴裝置
圖1為本發明較佳實施例穿戴裝置的整體結構示意圖。
圖2為穿戴裝置的功率調整模組的結構方框圖。
請參閱圖1,本發明公開了一種穿戴裝置100,該穿戴裝置100可為手錶或者手環。
該穿戴裝置100包括主體10、螢幕20,背蓋30和穿戴部40,該螢幕20設置於主體10上方,該背蓋30設置於主體10下方,該穿戴部40設置於穿戴主體10的兩側。在穿戴時,用戶手腕放入穿戴部40內,背蓋30與用戶手腕貼合,螢幕20朝向外側,便於用戶觀察其所顯示的資訊。
請參閱圖2,該穿戴裝置100還包括設置於主體10內的功率調整模組11與射頻天線12。該功率調整模組11包括感測器13與CPU14。該射頻天線12
用於發射/接收射頻訊號。該感測器13用於觸發一感測訊號並發送至CPU14。該CPU14根據該感測訊號判斷所述穿戴裝置100處於穿戴模式或自由模式。若穿戴裝置100處於穿戴模式,則CPU14控制所述射頻天線12增大天線傳導功率;若穿戴裝置100處於自由模式,則CPU14控制所述射頻天線12降低天線傳導功率。
本發明的第一較佳實施例中,該感測器13為重力感測器(G-sensor),該重力感測器的感測訊號為重力感測器偵測的加速度訊號。當用戶穿戴該穿戴裝置於手腕上時,隨著用戶的運動,該重力感測器將會輸出不同的加速度訊號,該重力感測器將該加速度訊號轉化為電訊號回饋至CPU14,該CPU14根據訊號判斷此時穿戴裝置100處於穿戴模式;當用戶未穿戴該穿戴裝置100於手腕上時,缺少用戶運動的影響,該重力感測器未感測到加速度訊號,沒有加速度訊號回饋至CPU14,該CPU14判斷此時穿戴裝置100處於自由模式。
本發明的第二較佳實施例中,該感測器13為光感測器,該光感測器包括發光二極體和光檢測器,該發光二極體向該穿戴裝置100用戶手腕穿戴處發射光線,光檢測器用於接收該光線的反射光線。當用戶穿戴該穿戴裝置100於手腕上時,用戶手腕遮擋住發光二極體發出的發射光線,光檢測器接收到發射光線經用戶手腕反射的反射光線,該光檢測器將光訊號轉化為電訊號回饋至CPU14,該CPU14根據電訊號判斷此時穿戴裝置100處於穿戴模式;當用戶未穿戴該穿戴裝置100於手腕上時,缺少手腕的影響,該光感測器未感測到反射光,沒有訊號回饋至CPU14,該CPU14判斷此時穿戴裝置100處於自由模式。
本發明的第三較佳實施例中,該感測器13為脈搏波感測器(PPG-sensor),脈搏波感測器可以為紅外脈搏波感測器或光電脈搏波感測器。以紅外脈搏波感測器為例,該紅外脈搏波感測器包括紅外發光二極體和紅外光敏三極管,紅外發光二極體用於向用戶手腕佩戴處發射紅外光線。當用戶穿戴該穿戴裝置100於手腕上時,用戶手腕遮擋住紅外發光二極體發出的紅外光線,
紅外發光二極體發出的紅外光照射到血管上,部分紅外光經血管反射被光敏三極管接收並轉換成電訊號回饋至CPU14,該CPU14根據電訊號判斷此時穿戴裝置100處於穿戴模式;當用戶未穿戴該穿戴裝置100於手腕上時,缺少手的影響,該光敏三極管未感測到紅外發光二極體發出的紅外光,沒有訊號回饋至CPU14,該CPU14判斷此時穿戴裝置100處於自由模式。
本發明的第四較佳實施例中,該感測器13為心電圖感測器(ECG-sensor),該心電圖感測器包括電極片,該電極片位於背蓋30上。當用戶穿戴該穿戴裝置100於手腕上時,用戶手腕與背蓋30上的電極片相接觸,該電極片感測用戶手腕處心臟跳動引起的電位變化,該心電圖感測器將動作電位訊號轉化為電訊號回饋至CPU14,該CPU14根據電訊號判斷此時穿戴裝置100處於穿戴模式;當用戶未穿戴該穿戴裝置100於手腕上時,缺少手腕的影響,該心電圖感測器未感測到所述電位變化,沒有訊號回饋至CPU14,該CPU14判斷此時穿戴裝置100處於自由模式。
本發明的穿戴裝置100可使用上述四種感測器13單獨進行檢測或組合檢測。當多個感測器13均判斷為穿戴模式或自由模式,則判斷成立;當出現多個感測器13判斷結果不同時,此時判斷不成立,感測器13重新進行檢測。
本發明的穿戴裝置100,包括主體10,所述主體10內設置有功率調整模組11及射頻天線12,該功率調整模組11包括感測器13、CPU14,所述感測器13將感測訊號傳送至所述CPU14,所述CPU14根據感測訊號判斷所述功率調整模組11處於穿戴模式或自由模式,若處於穿戴模式,則所述CPU14控制所述增大射頻天線12的天線傳導功率,能維持穿戴裝置100良好輻射效果;若處於自由模式,則所述CPU14控制所述功率調整電路15降低射頻天線12的天線傳導功率,能藉由電磁波吸收比值(SAR)的規範。
Claims (8)
- 一種功率調整模組,應用於一穿戴裝置,該功率調整模組包括感測器、CPU,其改良在於:所述感測器將感測訊號傳送至所述CPU,所述CPU根據感測訊號判斷所述穿戴裝置處於穿戴模式或自由模式,若處於穿戴模式,則所述CPU觸發一增大天線傳導功率的指令;若處於自由模式,則所述CPU觸發一降低天線傳導功率的指令,該感測器包括脈搏波感測器,所述脈搏波感測器用於發射紅外光並感測紅外光是否被阻擋,該脈搏波感測器包括紅外發光二極體和紅外光敏三極管,當用戶穿戴該穿戴裝置於手腕上時,用戶手腕遮擋住紅外發光二極體發出的紅外光,紅外發光二極體發出的紅外光照射到血管上,部分紅外光經血管反射被光敏三極管接收並轉換成電訊號回饋至CPU,該CPU根據電訊號判斷此時穿戴裝置處於穿戴模式;當用戶未穿戴該穿戴裝置於手腕上時,該光敏三極管未感測到紅外發光二極體發出的紅外光,沒有訊號回饋至CPU,該CPU判斷此時穿戴裝置處於自由模式。
- 如申請專利範圍第1項所述的功率調整模組,其中所述感測器還包括重力感測器,所述重力感測器用於感測所述功率調整模組的振動,若重力感測器感測到所述功率調整模組的振動,則所述CPU判斷所述穿戴裝置處於穿戴模式;若未感測到所述功率調整模組的振動,則所述CPU判斷所述穿戴裝置處於自由模式。
- 如申請專利範圍第1項所述的功率調整模組,其中所述感測器還包括光感測器,所述光感測器用於檢測所發射的光線是否被遮擋,若光線被遮擋,則所述CPU判斷所述穿戴裝置處於穿戴模式;若光線未遮擋,則所述CPU判斷所述穿戴裝置處於自由模式。
- 如申請專利範圍第1項所述的功率調整模組,其中所述感 測器還包括心電圖感測器,所述心電圖感測器用於感測心臟跳動引起的電位變化,若心電圖感測器感測到所述電位變化,則所述CPU判斷所述穿戴裝置處於穿戴模式;若心電圖感測器未感測到所述電位變化,則所述CPU判斷所述穿戴裝置處於自由模式。
- 一種穿戴裝置,包括射頻天線,其改良在於:所該穿戴裝置包括如申請專利範圍第1-4任意一項所述的功率調整模組。
- 如申請專利範圍第5項所述的穿戴裝置,其中所述穿戴裝置還包括主體,該主體上方設置有螢幕。
- 如申請專利範圍第6項所述的穿戴裝置,其中所述主體下方設置有背蓋。
- 如申請專利範圍第6項所述的穿戴裝置,其中該射頻天線及功率調整模組設置於該主體內。
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