激励电极位于信号触点的第一和第二部分之间。
The actuation electrode is positioned between the first and second portions of the signal contact.
离散相介质的存在对激励电极和测量电极附近区域灵敏场的影响比较大,对管道中心区域的影响则比较小。
The effect in the vicinity of the exciting electrode and detecting electrode is greater than that of the center of the pipe.
最后还讨论了时域法测量电极阻抗的激励信号的选择、测量频率上、下极限和噪声影响等问题。
The problems about the selection of excitation signal, limits of measurement frequency and noise influence have been discussed.
在此基础上,设计了用于12个电极点的卡肤电极或者10个电极点的剑状电极四通道神经信号激励模块。
Based on the module, a four channel module for the FES of neurons is designed for 12 sites cuff electrode or 10 sites shaft electrode.
本论文从ERT技术的原理性研究出发,针对该技术中电极结构设计进行了分析与优化,并对单电极电流激励模式做了深入的研究和优化。
In this paper, the electrode structure and single electrode current exciting mode are deeply analyzed and optimized by the fundamental study of ERT technology.
结果:电极阵列、电极皮肤接触阻抗、激励频率均对检测信号有影响。
Results: the results showed that the measuring electrode, skin-electrode, contacting impedance, and stimulating frequency all influenced the measured signal.
第一电极位于预成型偏向部分上,设置将检测或激励提供给第一心肌接触区域。
A first electrode is located at the preformed biased portion and is arranged to provide sensing or stimulation to the first myocardial contact area.
第二电极位于第一电极远端的导线体上并与其间隔,设置将检测或激励提供给不同的第二心肌接触区域。
A second electrode is located on the lead body distal to, and spaced apart from, the first electrode and is arranged to provide sensing or stimulation to the distinct, second myocardial contact area.
其中O型和L型结构的激励器受电极电压的影响比较明显,随着电极电压的增加,射流速度的最大值增大。
The jet flow velocities of the O-type and L-type are obviously affected by the excitation voltage; they increase with the increase of the excitation voltage.
本文研究二维非均匀有耗介质柱在电极化二维脉冲波激励下的瞬态散射。
The transient scattering of an electrically polarized, 2-d pulsed wave by 2-d inhomogeneous, lossy dielectric cylinder is investigated.
本文研究二维非均匀有耗介质柱在电极化二维脉冲波激励下的瞬态散射。
The transient scattering of an electrically polarized, 2-d pulsed wave by 2-d inhomogeneous, lossy dielectric cylinder is investigated.
应用推荐