Conclusion Low power microwave radiate in external acoustic canal treatment of acute secretory otitis media is useful, painless and no side effect.
结论低功率微波耳道内辐射治疗分泌性中耳炎,疗效显著,无痛苦,无副作用。
A recent spate of reports suggests that low-power microwave radiation, used to transmit mobile messages, might lead to brain tumours, cancer, raised blood pressure, and memory loss.
最近一大批报告表明用来传递移动电话信号的低能微波辐射可能会导致脑肿瘤、癌症、高血压和记忆力丧失。
One of the development trends of microwave YIG polycrystalline ferrite material is wide band, low loss and high power material.
微波yig多晶铁氧体材料的发展趋势之一是宽频带、低损耗、高功率材料。
In order to increase the irradiation power density of local view point, the low loss Teflon microwave lens focusing energy of microwave is used near the irradiating horn.
为了提高局部观察点的辐照功率密度,在辐照喇叭口采用了低损耗聚四氟乙烯微波透镜以聚焦微波能量。
By experimental study and mathematical model calculation, we can draw a conclusion that the influence mechanism of microwave on the extraction is different between low power area and high power area.
结合实验研究、模型计算,对微波强化中草药提取的传质机理的研究表明,低功率区和高功率区微波强化目标成分提取的作用机理有所不同。
Microwave nW power sensor USES low barrier schottky diode (LBSD) as a component for testing the power of microwave signals.
本文介绍了使用低势垒肖特基二极管(LBSD)作为检测微波信号功率元件的微波毫微瓦功率传感器。
Wide frequency band, high power, low losses and wide temperature coefficient are the developing trends of microwave ferrite materiel.
微波铁氧体材料的发展趋势是宽频带、功率、损耗、温度系数。
Customer Service: Broadband low-noise amplifiers, power amplifiers and passive product lines, as well as custom microwave components.
客户服务内容:宽带低噪声放大器系列、功率放大器系列和无源产品系列,以及定制的微波组件。
Wide frequency band, high power, low losses and wide temperature coefficient are the developing trends of microwave ferrite materiel. Good material can optimize the performance of devices.
微波铁氧体材料的发展趋势是宽频带、大功率、低损耗、宽温度系数。
A low power inductively-coupled microwave plasma source based on planar spiral microstrip at 2.
本文提出一种基于平面螺旋微带的2。
By Comparison with microwave communication, the advantages of the free-space laser communication system, such as big capacity, low power consumption, small volume and light weight, are introduced.
通信领域中激光通信技术由于自身的优越性得到了广泛的应用。通过将空间激光通信与微波通信比较,介绍空间激光通信的优点:大容量、低功耗及体积小、质量轻等。
By Comparison with microwave communication, the advantages of the free-space laser communication system, such as big capacity, low power consumption, small volume and light weight, are introduced.
通信领域中激光通信技术由于自身的优越性得到了广泛的应用。通过将空间激光通信与微波通信比较,介绍空间激光通信的优点:大容量、低功耗及体积小、质量轻等。
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