它通过传输由高技术传感器收集的电脉冲而起作用。
It works by sending a series of electrical impulses which are picked up by hi-tech sensors.
超宽带脉冲是运用超高频在很短的距离内传输海量数据的最新尖端技术,比如从iPod样式的播放器向电视银屏传输视频文件。
A new advance is ultra-wideband (UWB) technology, which USES very high frequencies at very short range to transmit huge amounts of data, as in sending video from an iPod-like device to a TV screen.
泥浆脉冲方法目前应用较多,但数据流量稀疏,电流环技术作为远距离传输手段已被广泛的应用于其它领域,技术成熟。
Mud pulse modulation data flow is thin, but current transmitter as far distance transmission means has been widely applied other field, technology is mature.
因此脉冲成形技术不仅能对传输信号进行频谱成形来提高系统的频带利用率,而且还可以减小信号的PAPR值。
Thus pulse shaping technique can be used not only shape the spectrum of the transmitted signal to increase the bandwidth efficiency but also to reduce its PAPR.
介绍了基于光纤信号传输的核电磁脉冲场探测仪的原理、设计研制及达到的技术性能指标。
This paper deals with design principles, development and performance of a field measurement instrument for nuclear electromagnetic pulse (EMP) based on signal transmission through fiber.
以基于CANBUS现场总线技术的FBCAN 2ct隔离型脉冲测量智能节点为例,介绍系统构成、数据包传输格式、软件设计。
This paper introduces the system structure, the transfers format of the data package and the software design of the FBCAN-2CT isolated pulses measurement node based on CANBUS.
近年来,超宽带脉冲无线电UWB-IR传输技术以低功耗、高速率、低检测率和低截获率等特点受到军事通信领域的关注。
UWB-IR technology has been concerned in military communications in recent years because of its high data rate, low power consumption, low probability of detection and low probability of interception.
PP M脉冲位置调制通信技术作为一种新兴的通信技术,具有编码简单、能量传输效率高的优点。
As a new communication technology, PPM (pulse position modulation) technology can be easily coded, and has a high efficiency of energy transmission.
介绍了用单芯电缆传输脉冲信号的技术原理和电路实现,分析了实现电路的耐压性能和传输性能。
The technology principle and circuit realization are introduced for pulse signal transmission through single cable.
提出了将传统单个储能电感利用传输线分隔成两部分的新型电感储能脉冲功率驱动源技术方案。
A novel inductive energy storage pulsed power source design has been presented, with two energy storage coils separated by a water transmission line.
在我国目前技术条件下要实现超短电脉冲的产生、传输、叠加和测最都有较大的难度。
In China, we still has long way to go under the technologic conditions in these days, in order to realize the production, transportation, nestification and measurement.
在我国目前技术条件下要实现超短电脉冲的产生、传输、叠加和测最都有较大的难度。
In China, we still has long way to go under the technologic conditions in these days, in order to realize the production, transportation, nestification and measurement.
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