▸创新点1:高电压兼容性(电路创新):该设计实现了高电压兼容性,能够在高压环境下稳定工作,显著提升了神经记录器的适用性和可靠性,适用于多种复杂神经信号采集场景。
▸创新点2:32通道数字接口(系统创新):采用32通道数字接口设计,大幅提高了数据传输效率和并行处理能力,支持多通道神经信号的同步采集和处理,提升了系统的整体性能。
▸创新点3:神经记录器性能优化(方法创新):通过优化电路设计和信号处理算法,显著降低了噪声等效因子(NEF)和芯片面积,提升了神经记录器的性能指标,使其在同类产品中具有竞争优势。
▸创新点4:集成化设计(系统创新):将高电压兼容性和多通道数字接口集成于单一芯片,减少了外部组件的依赖,降低了系统复杂性和成本,同时提高了系统的便携性和实用性。
Abstract
raduate Student Member , IEEE , Markus Sporer , Graduate Student Member , IEEE ,
Michael Haas , Joachim Becker , Senior Member , IEEE, Martin Schüttler,
and Maurits Ortmanns , Senior Member , IEEE
In the above article [1], an earlier version of Fig. 4 was used.
Therein, recent state-of-the-art designs are placed according to
performance metrics NEF and area, but the references in Fig. 4
do not match the reference section.
The correct Fig. 4 is given below.
Fig. 4. Performance of the presented ne