基于Cccii +的低通滤波器设计，用于分析脑电信号

Turkish Journal of Agriculture: Food Science and Technology Pub Date : 2023-08-29 DOI:10.55525/tjst.1243178

Kübra Teki̇n, Hasan Güler

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引用次数: 0

摘要

生物医学信号通常是电极获得的低频谱区域的小幅度和噪声信号。在生物医学信号分析中，虽然op - amp经常被使用，但电流传送带现在可用，作为替代方案更有优势。本研究采用第二代电流控制电流传送带(CCCII+)设计了一种用于脑电图信号分析的低通滤波电路。CCCII+低通滤波电路的截止频率设计为100hz，并使用ORCAD Pspice程序对该电路进行仿真。所设计的低通滤波器已应用于Boon大学癫痫患者和健康人的原始脑电图数据。将脑电信号应用于该滤波器后，对其进行傅里叶分析，分析了信号和脑电波(δ， θ， α， β， γ)的变化。用CCCII+设计的低通滤波器对两个信号都有很好的阻尼作用。本设计的CCCII+低通滤波电路用于脑电图测量，可以很好地诊断神经系统疾病，如癫痫。

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CCCII+ BASED LOW PASS FILTER DESIGN FOR ANALYSIS OF EEG SIGNALS

Biomedical signals are usually small amplitude and noisy signs in the area of low-spectrum frequencies obtained by electrodes. In the analysis of biomedical signals, although OP-AMPs are often used, current conveyors are now available, which are more advantageous as alternatives. In this study, a low-pass filter circuit is designed for the analysis of EEG signals using the second-generation current-controlled current conveyor (CCCII+). The cut frequency of the CCCII+ low pass filter circuit is designed to be 100 Hz and the ORCAD Pspice program is used to simulate this circuit. The introduction of the low-pass filter, which is designed, has been applied to raw EEG data for epilepsy patients and healthy people from the University of Boon. Fourier Analysis was applied to the signals as a result of the EEG signal being applied to this designed filter, and changes in the signals and EEG waves (δ, θ, α, β, γ) were examined. A low-pass filter designed with CCCII+ for both signals is good for damping. This designed CCCII+ low pass filter circuit is intended to be good for diagnosing neurological diseases such as epilepsy if used for EEG measurements.

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Turkish Journal of Agriculture: Food Science and Technology

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