探测器线圈有一个特殊的3米长的电缆。
该探测器线圈与PVC列装在一个铝底板的屏蔽线圈从下部结构来电磁干扰。
The detector coils are mounted with PVC columns on an aluminium baseplate that shields the coils from electromagnetic disturbances coming from the substructure.
该放大器具有自动调节调节装备,确保可靠的操作,即使在令人不安的金属零件非常接近的探测器线圈。
The amplifier is equipped with an automatic adjustment regulator that ensures reliable operation even when disturbing metal parts are in close proximity to the detector coil.
为了最有效地利用金属探测器的灵敏度,保持金属探测器线圈周围约等于1.5至2倍线圈的直径自由区。
In order to most effectively exploit the metal detector's sensitivity, maintain a metal-free area around the detector coil approximately equal to 1.5 to 2 times the coil diameter.
相对的充满粒子的二团云然后在与探测器相连的圆筒形“混合线圈”中受电场调整为分层。
The two clouds of oppositely charged particles are then superimposed by adjusting electrical fields in a cylindrical "mixing trap" lined with detectors.
该放大器的任务之一是在处理线圈的金属探测器发出的信号,并转换成电子脉冲他们。
One of the amplifier's tasks is to process the signals emitted by the metal detector coil and convert them into an electronic pulse.
该探测器的电磁线圈产生磁场。
在平衡线圈式智能金属探测器的设计中,使用了三片直接数字合成(DDS)芯片ad9832。
Three Direct Digital Synthesis (DDS) chips, AD9832, are used in the design of a balanced coil intelligent metal detector.
法拉第筒、罗科夫斯基线圈、壁电流探测器、磁探针是束流测量中几种常见的方法。
Faraday Cup, Rogowski coil, Resistive Wall Current Monitor and Bot are familiar diagnostic techniques to measure beam parameters.
法拉第筒、罗科夫斯基线圈、壁电流探测器、磁探针是束流测量中几种常见的方法。
Faraday Cup, Rogowski coil, Resistive Wall Current Monitor and Bot are familiar diagnostic techniques to measure beam parameters.
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