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引用次数: 1

摘要

机电RF继电器的一个主要优点是它们能够携带和切换从直流到GHz范围的信号。目前,小型RF继电器的开关能力还局限在几瓦,不能令人满意。由于之前没有数据可用,因此进行了基础调查以了解高频信号切换时的机制。当高频信号中断时,由于其热特性,电弧表现得像直流电弧,并在信号的几个周期内燃烧。电弧是一个可调电阻,只是改变输出信号的幅度。当触点间隙增大时,电弧最终在电流为零时熄灭,其方式与交流电弧相似。当电弧熄灭时,信号发生相移,因为开触点可以被认为是电容。在直流负载60w、低频交流负载62.5 VA、射频负载最大功率37w的情况下,对新型高性能、低成本超小型射频继电器进行了实际测试。所得结果证实了理论方法。桥接触点的主要优点是提供串联的两个触点间隙,在从直流到射频的所有频率范围内都具有出色的RF特性和开关性能。即使经过100万次操作,也没有发现射频特性的相关变化,尽管热开关负载为37 W。
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Basic Investigations for Switching of RF Signals
A major advantage of electromechanical RF relays is their capability to carry and to switch signals from DC up to the GHz range. Up to now the switching capability of miniature RF relays was limited to a few Watts, which was not really satisfactory. Basic investigations were performed to understand the mechanism when high frequency signals are switched, as no data was previously available. When high frequency signals are interrupted, the arc performs like a DC arc due to its thermal characteristics and burns for several periods of the signal. The arc is an adjustable resistor and just changes the amplitude of the output signal. When the contact gap increases, the arc finally extinguishes at current zero in a similar way as an AC arc. At the time the arc extinguishes the signal makes a phase shift as the open contact can be considered to be a capacitance. Practical tests were performed on a new type of high performance low-cost ultra-miniature RF relay with DC loads up to 60 W, low frequency AC loads up to 62.5 VA and RF loads with a maximum power of 37 W. The results obtained confirm the theoretical approach. Major advantages of bridge contacts providing two contact gaps in series were found, yielding excellent RF characteristics as well as outstanding switching performance in all frequency ranges from DC to RF. Even after 1 million operations no relevant changes of the RF characteristics were found, although a load of 37 W was hot switched.
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