陳希有 許康 牟憲民 李冠林

摘 要 通過原理分析，提出了海水中感應(yīng)耦合無線電能傳輸（ICWPT）系統(tǒng)的電路模型，其中考慮了海水的渦流效應(yīng)，建立了匹配條件下傳輸效率的表達(dá)式。作為對(duì)比，基于單個(gè)超聲換能器的電路模型，建立了包含兩個(gè)超聲換能器的超聲耦合無線電能傳輸（UCWPT）系統(tǒng)電路模型，分析了匹配條件下的傳輸效率。分別以矩形耦合線圈作為電磁耦合裝置，以壓電復(fù)合材料換能器作為電聲和聲電轉(zhuǎn)換裝置，搭建了在海水槽中ICWPT和UCWPT系統(tǒng)實(shí)驗(yàn)平臺(tái)。分別從傳輸效率與工作頻率的關(guān)系、傳輸效率與耦合距離的關(guān)系進(jìn)行了比較，并對(duì)傳輸功率進(jìn)行了討論。研究發(fā)現(xiàn)，ICWPT的傳輸效率與頻率的關(guān)系曲線比UCWPT的效率與頻率關(guān)系曲線更加平坦。較遠(yuǎn)距離時(shí)，UCWPT的傳輸效率高于ICWPT的傳輸效率。

關(guān)鍵詞：海水；超聲波；感應(yīng)耦合；無線電能傳輸；對(duì)比

中圖分類號(hào)：TM724

Abstract： Through the analysis of the principle， the circuit model of inductive coupling wireless power transmission（ICWPT） system in seawater was proposed， which considered the eddy current effect of seawater. The transmission efficiency under matching condition was established. For contrast， based on the circuit model of a single ultrasonic transducer， a circuit model of ultrasonic coupling wireless power transmission（UCWPT） system with two ultrasonic transducers was established， and the its transmission efficiency under matching conditions was analyzed. The ICWPT and UCWPT system experimental platforms were constructed by using the rectangular coupling coil as the electromagnetic energy coupling devices and the piezoelectric （PZT） composite transducer as the electro-acoustic and acoustic-electro conversion devices. The relationship between transmission efficiency and operating frequency， transmission efficiency and coupling distance was compared， respectively， and the transmission power was also discussed. It is found that the transmission efficiency vs frequency curve of the ICWPT system are more flat than that of the UCWPT system. At longer distances， the transmission efficiency for UCWPT system is higher than that of the ICWPT system.

Keywords：seawater； ultrasound； inductive coupling； wireless power transfer； contrast