本文選題：生物電信號 + 集成電路��； 參考：《現(xiàn)代電子技術(shù)》2017年11期

【摘要】：基于生物電信號的幅頻特性,研究了高精度、低噪聲和低功耗的信號采集與無線傳輸方法和優(yōu)化理論。通過SMIC 180 nm 1P6M標(biāo)準(zhǔn)CMOS工藝設(shè)計實現(xiàn)了一款用于自由活動被測體的神經(jīng)電信號采集和無線傳輸芯片。主要論述了射頻電路設(shè)計,在該生物電信號采集和傳輸系統(tǒng)中采用無線方式對信號進(jìn)行傳輸,為了增加其通用性,兼顧板級天線互連及其面積尺寸,依據(jù)科學(xué)研究、教育和商用的開放頻段(2.4~2.438 GHz)對無線收發(fā)組件進(jìn)行研究和設(shè)計。
[Abstract]:Based on the amplitude-frequency characteristics of bioelectric signals, the signal acquisition and wireless transmission methods and optimization theory with high precision, low noise and low power consumption are studied. A SMIC 180nm 1P6M standard CMOS technology is used to design and implement a neural signal acquisition and wireless transmission chip for free-moving subjects. This paper mainly discusses the design of radio frequency circuit. In this bioelectric signal acquisition and transmission system, wireless mode is adopted to transmit the signal. In order to increase its versatility, the board level antenna interconnection and its area size are taken into account, according to scientific research. Educational and commercial open band 2. 4 and 2. 438 GHz) research and design of wireless transceiver modules.
【作者單位】： 河南大學(xué);
【基金】：河南省科技廳公關(guān)計劃項目(162102210021)
【分類號】：TN402

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本文編號：1796085