在电热、电磁发射技术中,高功率脉冲电源占据着非常重要的位置,开关是高功率脉冲电源的重要组成部分。
In the electrothermal chemical and electromagnetic launch technology, the high power pulsed sources occupy a very important place.
与雷达和声纳技术相似,激光雷达(光探测和测距)的工作原理是通过向目标发射电磁波然后根据反射波构建图像。
Like its Cousins radar and sonar, lidar (light detection and ranging), works by broadcasting electromagnetic waves towards a target and then building up a picture from the reflection.
与雷达和声纳技术相似,激光雷达的工作原理是通过向目标发射电磁波然后根据反射波构建图像。
Like its Cousins radar and sonar, lidar, works by broadcasting electromagnetic waves towards a target and then building up a picture from the reflection.
这项技术包括战略性放置在头上电磁石的应用,它产生一个发射微小的电流进入大脑的电磁场。
The technique involves the use of electromagnets positioned strategically on the head to create a magnetic field that sends tiny electric currents into the brain.
讨论了抑制电磁泄漏辐射与传导发射的方法和TEMPEST技术的相关问题。
The protection methods of radiation emission and TEMPEST technology and its standards are discussed.
多频发射技术是主动源电磁法提高工作效率的重要手段之一。
Multi - frequency transmitting technology is one of the most important measures to improve efficiency for active electromagnetic method.
研究信息融合技术在海底管道维修装置与检测装置间的应用,采用超低频电磁波,小波分析等技术与管线跟踪探测仪、DGPS以及示踪信号探测器等设备解决发射、接收、通讯技术中的关键技术点。
The extra low electromagnetic wave, wavelet technology, pipe track instrument, DGPS and tracing signal equipment are used to solve the key question of trans-mit-receive and communication.
电磁设计的增加相关的发射器和全电式技术的信心确认。
Confirmation of the electromagnetic design increases confidence in related launcher and all-electric technologies.
遥感技术的物理基础是地物对电磁波的反射、吸收和发射特性。
Obviously, the physics base of the remote sensing technology is that landmark can reflect, absorb and emit electromagnetic wave.
遥感技术的物理基础是地物对电磁波的反射、吸收和发射特性。
Obviously, the physics base of the remote sensing technology is that landmark can reflect, absorb and emit electromagnetic wave.
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