摘要
背景:低频电场定位方式下的心内膜三维标测技术中,激励源的设计是探测导管位置的前提。目的:旨在设计一种结构简单、集成度高、专用于心内膜三维标测的激励源,并通过动物实验对激励源性能进行测试分析。方法:基于直接数字合成技术,采用模块化设计,以单片机STC89C52控制三块直接数字合成芯片AD9851为核心,生成三路频率分别为28,30,32kHz的1mA正弦恒流信号。施加三路信号于动物体,采集并处理右心房内的定位信号数据,对激励源性能进行评价和分析。结果与结论:动物实验结果表明,三路信号的电流值均可稳定于1mA,其频率误差分别为0.054%,0.097%及0.056%,同时标测导管采集数据正常,能够分离出3个方向的电压信号。激励源恒流特性好、频率误差小,可满足心内膜三维标测的使用要求。
BACKGROUND:The excitation source's design is precondition of detecting the catheter's position in endocardial three-dimensional (3D) mapping by low-frequency electric field.OBJECTIVE:To design an excitation source for endocardial 3D mapping with simple structure and high integration,furthermore,to test the performance of the excitation source through animal experiments.METHODS:Three channel different frequencies (28,30,32 kHz) sine voltage signals were generated based on the direct digital synthesis (DDS) technology and modularization design through three AD9851 chip controlled by single-chip microcomputer STC89C52.The excitation source's performance is analyzed by acquisition and processing the localization signal in animal right atrium.RESOULTS AND CONCLUSION:The animal experimental results show that three signals' current value can be stable at 1mA and the frequency errors are 0.054%,0.097%,0.056%,respectively,furthermore,voltage signals in three directions can be extracted from the mapping catheter's sampling data.The excitation source has little frequency error and higher constant-current performance,and therefore can satisfy the endocardial mapping requirements.
出处
《中国组织工程研究与临床康复》
CAS
CSCD
北大核心
2011年第9期1627-1630,共4页
Journal of Clinical Rehabilitative Tissue Engineering Research
基金
河南省教育厅自然科学基础研究计划项目(2007460021)"基于反求工程的曲面模型三维快速重构技术"~~
