此种器械产生磁场的功率足以在人的大脑细胞里激发出电流而不会使人体有所损害。
The machine's magnetic fields are powerful enough to induce electric currents in human brain cells without being harmful.
该设备通过安放在人体头部的电极发送出一个弱电流。
The device sends a weak electrical current through electrodes placed on a person's head.
如果人体组织和电极之间的有效接触面积保持不变,那么高频电流强度扩大一倍将会使电流密度增大一倍,并产生四倍的热量。
Doubling hf-current results in a doubling of current density and a fourfold heat provided that the area of effective contact between the tissue ang the electrode remains constant.
但两放电针是一种微电流,对人体及其它动物不会构成安全威胁。
However the two discharge needles have micro-currents which will not pose a security threat to human body and other animals.
它将有关低频脉冲信号对中频调幅后,利用被放大的调幅波电流对人体进行治疗。
It will give patients treatment by means of the amplified amplitude modulating wave current that can be obtained form medium frequency amplitude modulated by the low frequency pulse signal.
影响触电者触电时危险程度的因素有:电压电流、电流作用时间、电流通过人体的途径、人体电阻等;
The factors, which influence the dangerous degree of electric shock are:voltage, current, function time of current, path of current passing the human body, resistance of human body etc.
已有的人体通信方式可分为电容耦合型和电流耦合型。
There are two methods of IBC: capacitive coupling and galvanic coupling.
基于生物酶催化的电化学电流检测原理对人体血液生化参数进行测试。
Based on MEMS technology and electrochemical detecting principle of bio-enzyme catalysis, one biochip has been developed.
本研究着眼于电流耦合型人体通信方式,抽象并简化人体前臂的发送端等效电路模型。
Focusing on the method of galvanic coupling, an equivalent circuit model of human forearm at the transmitter was simplified and developed.
本研究着眼于电流耦合型人体通信方式,抽象并简化人体前臂的发送端等效电路模型。
Focusing on the method of galvanic coupling, an equivalent circuit model of human forearm at the transmitter was simplified and developed.
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