哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
Journal of Harbin Engineering University
2015年
9期
1264-1268
,共5页
曾平%陈艳辉%孙淑杰%柳杰%程光明
曾平%陳豔輝%孫淑傑%柳傑%程光明
증평%진염휘%손숙걸%류걸%정광명
分频%骨传导%压电%助听器%矩形振子
分頻%骨傳導%壓電%助聽器%矩形振子
분빈%골전도%압전%조은기%구형진자
frequency division%bone-conduction%piezoelectricity%hearing aid%rectangle vibrator
为了使压电骨传导助听器对声音信号的传递更准确、更高效,提出一种具备对高低频声信号进行分频传导能力的新型压电骨传导助听器. 该助听器利用方形和矩形2个压电振子独立驱动,可以将高低频声音信号分频后通过骨传导方式传至内耳. 对助听器的主要部件压电振子设计参数进行了仿真分析,依据仿真分析的结果,制作了压电骨传导助听器试验样机,搭建了测试系统,对助听器样机进行了试验测试. 测试结果表明,矩形和方形振子的阶跃响应速度相差约4 ms;中低频段频率响应中矩形振子的声压值突变平均超过方形振子约10 dB,中高频段频率响应中方形振子的声压值突变平均超过矩形振子约13 dB. 试验结果证明该助听器可以实现声音信号的分频传导.
為瞭使壓電骨傳導助聽器對聲音信號的傳遞更準確、更高效,提齣一種具備對高低頻聲信號進行分頻傳導能力的新型壓電骨傳導助聽器. 該助聽器利用方形和矩形2箇壓電振子獨立驅動,可以將高低頻聲音信號分頻後通過骨傳導方式傳至內耳. 對助聽器的主要部件壓電振子設計參數進行瞭倣真分析,依據倣真分析的結果,製作瞭壓電骨傳導助聽器試驗樣機,搭建瞭測試繫統,對助聽器樣機進行瞭試驗測試. 測試結果錶明,矩形和方形振子的階躍響應速度相差約4 ms;中低頻段頻率響應中矩形振子的聲壓值突變平均超過方形振子約10 dB,中高頻段頻率響應中方形振子的聲壓值突變平均超過矩形振子約13 dB. 試驗結果證明該助聽器可以實現聲音信號的分頻傳導.
위료사압전골전도조은기대성음신호적전체경준학、경고효,제출일충구비대고저빈성신호진행분빈전도능력적신형압전골전도조은기. 해조은기이용방형화구형2개압전진자독립구동,가이장고저빈성음신호분빈후통과골전도방식전지내이. 대조은기적주요부건압전진자설계삼수진행료방진분석,의거방진분석적결과,제작료압전골전도조은기시험양궤,탑건료측시계통,대조은기양궤진행료시험측시. 측시결과표명,구형화방형진자적계약향응속도상차약4 ms;중저빈단빈솔향응중구형진자적성압치돌변평균초과방형진자약10 dB,중고빈단빈솔향응중방형진자적성압치돌변평균초과구형진자약13 dB. 시험결과증명해조은기가이실현성음신호적분빈전도.
In order to transmit sound signals more accurately and more efficiently, a novel piezoelectric bone-conduc-tion hearing aid that separates voice signals into high frequency and low frequency conduction is proposed. The hear-ing aid is actuated by both square and rectanglar vibrators, and can conduct the resulting divided high-frequency and low-frequency signals to the inner ear. Simulation analysis was conducted on design parameters of the main-piezoelec-tric vibrator,then a prototype of the piezoelectric bone-conduction hearing aid was developed, and tested, based on the results. The results indicate that the speed difference of step response between the square vibrator and the rectang-lar vibrator is about 4 ms. In the frequency response test, the sudden change of sound pressure of the rectanglar vibra-tor averages 10 dB higher than the square vibrator at medium and low frequencies. The sudden change of sound pres-sure for the square vibrator averages about 13 dB lower than the rectanglar vibrator at the medium and high frequen-cies. The experimental result confirms that the hearing aid can conduct the voice signal after frequency division.
