Minisize axial flow blood pump is the focus on the structure study of artificial heart recently.
微型轴流式血泵是目前人工心脏结构研究的热点,外磁驱动是一种新型的血泵驱动方式。
During the design procedure for axial flow blood pump, proper blade number is important to whole flow performance in the pump.
在人工轴流心脏泵的设计过程中,叶片数目的选取对泵的工作条件的影响很大。
The invention provides an implantable non-contact miniature axial flow blood pump for circulation support in patients with heart failure.
一种植入式无接触微型轴流血泵,可用于辅助衰竭心脏的血液循环。
The extracorporeal magnetic filed driving system was proposed for axial flow blood pump based on coupling principle of transverse alternating flux.
基于横向旋转磁场的耦合原理,提出轴流式血泵外磁场驱动系统方案,设计一种泵机分离的结构。
This paper brings forward the outside magnetic driving system of axial flow blood pump based on single chip microcomputer. And then validates the feasibility of the scheme.
本文通过对血泵外磁驱动方式的探索研究,提出了基于单片机控制的微型轴流式血泵外磁驱动系统设计思想,同时通过实验验证了系统方案的可行性。
Minisize axial flow blood pump is the focus on the structure study of artificial heart recently. Being driven via outside magnetic field is a new driving method on blood pump.
微型轴流式血泵是目前人工心脏结构研究的热点,外磁驱动是一种新型的血泵驱动方式。
The control mechanism based on ventricular work is proposed to design for the controller adaptable to axial-flow blood pump driven by extracorporeal magnetic field.
文章提出了基于心室功的控制机制,设计了适合外磁驱动轴流式血泵结构特点的控制器。
The control mechanism based on ventricular work is proposed to design for the controller adaptable to axial-flow blood pump driven by extracorporeal magnetic field.
文章提出了基于心室功的控制机制,设计了适合外磁驱动轴流式血泵结构特点的控制器。
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