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Full-bandwidth brain electrical signal obtaining device

An EEG signal acquisition device technology, applied in the field of biomedical engineering, can solve the problems of inability to realize accurate acquisition of full-bandwidth EEG signals, inability to realize full-bandwidth EEG signal acquisition, poor anti-interference ability of low-frequency EEG signals, etc. Achieve non-destructive acquisition, ensure close contact, and strong anti-interference ability

Active Publication Date: 2014-08-27
YANSHAN UNIV
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Problems solved by technology

This device can avoid the poor contact between the electrode and the scalp during measurement, but its disadvantages are: it cannot effectively reduce the interference of external high-frequency signals on the DC part of the EEG signal, and cannot achieve accurate acquisition of the full-bandwidth EEG signal
It uses implantable electrodes, which have a certain degree of damage to the experimental subjects; at the same time, the method of collecting the DC and AC parts separately cannot realize the real full-bandwidth EEG signal collection.
There are several main problems in the acquisition of full-bandwidth EEG signals, that is, the low-frequency EEG signal has poor anti-interference ability, the DC part of the EEG signal exceeds the acquisition range after being amplified, and the acquired data cannot be saved in the standard EDF format.

Method used

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  • Full-bandwidth brain electrical signal obtaining device
  • Full-bandwidth brain electrical signal obtaining device
  • Full-bandwidth brain electrical signal obtaining device

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Embodiment

[0045] The overall design block diagram of the full-bandwidth EEG signal acquisition device, such as figure 1 As shown, it is composed of an anti-shake electrode, a DC attenuation circuit, an amplification filter circuit and a host computer. The front-end collects the EEG signal by the anti-shake electrode, and then enters the DC attenuation circuit. The attenuation circuit only attenuates the DC and low-frequency part of the signal, so that the amplitude of the DC and low-frequency part can still be collected by the system A / D converter after being amplified. Within the amplitude range, there is no overflow; the amplification and filtering circuit includes a two-stage amplifying circuit and a low-pass filtering circuit, and the two-stage amplifying circuit amplifies the DC and low-frequency attenuated EEG signals as a whole, so that the amplitude can reach The effective precision of A / D converter conversion; the low-pass filter circuit effectively eliminates the high-frequenc...

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Abstract

The invention discloses a full-bandwidth brain electrical signal obtaining device. The full-bandwidth brain electrical signal obtaining device is characterized in that an anti-shaking electrode comprises an electrode body, gel and an insulation layer, a direct current attenuator circuit only attenuates direct current and low frequency portions of an input signal, the amplitude of the direct current and low frequency portions is amplified and then is kept within the system A / D collecting amplitude value range, and the overflowing phenomenon does not appear; an amplification filter circuit comprises a secondary amplification circuit and a low pass filter circuit, and an upper computer restores the direct current portion through a digital compensation algorithm and is reconstructed with an alternating current portion to form an original brain electric signal. The full-bandwidth brain electrical signal obtaining device can meet the requirement for standard EDF format storage and has the advantages of being high in precision, full in bandwidth, strong in anti-jamming capacity, complete in data restoration and the like, and the direct current attenuation signal can be automatically reconstructed into the original full-bandwidth brain electrical signal under the conditions that the amplitude value range is from minus 100 mV to plus 100 mV and the precision is 0.3 mu V.

Description

technical field [0001] The invention belongs to the field of biomedical engineering, and relates to a technology for collecting and processing bioelectrical signals, in particular to a device for acquiring full-bandwidth electroencephalogram signals. Background technique [0002] Due to technical limitations and backward cognition in EEG research, the bandwidth of traditional EEG signal acquisition equipment is usually set to 0.5-50Hz, and signals outside this range are considered useless signals or interference signals. With the rapid development of technology and EEG research work, especially for immature brain, epilepsy and other brain states, it is found that low-frequency signals (<0.1Hz) in EEG, even DC components and high-frequency signals are very high. research value. Therefore, it is necessary to have an acquisition device that can acquire DC components to high-frequency components to realize the complete acquisition of EEG signals. [0003] Because the amplit...

Claims

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Application Information

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IPC IPC(8): A61B5/0476
Inventor 梁振虎李小俚赵新宇张昊路承彪
Owner YANSHAN UNIV
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