SU613423A1 - Shf power output device - Google Patents

Description

The invention relates to radio engineering and can be used in electric-noise ultra-high frequency devices. A device for outputting microwave energy is known, which contains input and output rectangular waveguides associated with a pass-through resonator in the form of a circular cylinder with a ceramics partition 1. However, the known device has a limited operating frequency band, especially in high-power devices. The aim of the invention is to expand the parasitic bandwidth. To do this, in the microwave output device containing the input to the output rectangular waveguides connected by a resonator in the form of a circular cylinder with a ceramic partition, the passage resonator is provided with two projections diametrically opposite to the perpendicular wide walls of the input and output rectangular waveguides and in the ceramics septum there are slots corresponding to those indicated. FIG. 1 shows a microwave power output device; in fig. 2 is a section A-L in FIG. 1. The ultra high frequency output device 1 contains an input / n output 2 rectangular waveguides connected by a through-pass resonator 3 in the form of a round cylinder with a ceramic partition 4, and the pass-through resonator 3 is provided along the entire length with two diametrically opposite perpendicular wide wall m of the input 1 and output 2 rectangular waveguides with protrusions 5, a; in the ceramic partition 4, grooves corresponding to said protrusions 5 are made. The device for outputting superhigh-frequency energy works as follows ohm The expansion of the non-parasitic bandwidth of the microwave energy output device is based on an increase in the frequency band between the main type of oscillations of the pass-through resonator 3 and the nearest higher type of oscillations. Such an increase in the frequency band automatically increases the bezparazitnogo bandwidth, since the parasitic resonances are the resonances of higher types of oscillations that are shifted to low frequencies due to the presence of a dielectric. The spreading of the frequency band between the main type of oscillations and the nearest higher type of oscillations in this case is carried out by introducing two metallic protrusions 5 into the pass-through resonator 5, oriented along a Yats-3 circular waveguide, along electric power lines. Such a design. output devices

microwave energy is easily matched in a wide band with rectangular waveguide wavelengths. And it has a fairly wide beopar-black passband. With a height of protrusions of 5-50% of the cylinder radius, a 35% expansion of the beoparasitic lanes is achieved.

Form m u l a and 3 o b e e n l

The output device is an ultrahigh-frequency E. not: rgia, containing, its input and output rectangular waveguides connected by a through-pass cavity in the form of a round cylinder with a ceramic partition, so that, in order to expand a free passband, a pass-through resonator is measured along the entire length by two diametrically opposed perpendicular wide walls of the input and output rectangular waveguides, the protrusions, and in the BbinOviHeHbi ceramic partition, the slots corresponding to these protrusions.

The source of information taken into account in the examination:

. US patent K °, cl. 333-98, 15 SP at a highlight. 1967.

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