SU1115572A1 - Device for measuring power of side oscillation - Google Patents

Abstract

A DEVICE FOR MEASURING THE POWER OF SIDE VIBRATIONS, containing a series-connected input waveguide junction and representation. The invention relates to microwave measurement techniques and can be used to measure the power of side oscillations in multimode waveguide paths. A device for measuring the power of spurious oscillations is known, comprising a measuring line, the probe of which is connected to the measuring receiver through a barrier filter of non-oscillations. A disadvantage of the known device is the limited frequency range, because at a frequency above some critical in the measuring line another type of oscillation may propagate, and the measurement of the harmonic becomes unreliable at frequencies above this critical frequency. Waveguide with increased cross-sectional dimensions, in which. along the perimeter of the cross section, probes are installed, whose outputs through the switch are connected to the measuring input of the receiver, as well as the output waveguide transition, which is distinguished by the fact that, in order to increase the accuracy of the reduction in labor intensity of measurements, between the waveguide section with increased cross-sectional sizes and the output waveguide transition enabled notch filter side oscillations. . b. The closest technical solution to this invention is a device for measuring the power of side oscillations, containing serially connected input waveguide transition and a wave section of water with increased cross-sectional dimensions of the cross section, in which probes are installed along the Is5 per meter across the cross section. the switch is connected to the measuring input of the receiver, as well as the output; waveguide junction. However, the known device is not. provides high accuracy of measurements and requires multiple measurements, which leads to an increase in the duration of measurements. The purpose of the invention is to increase the accuracy while reducing the complexity of the measurements.

Description

The invention relates to a microwave measurement technique and can be used to measure the power of side vibrations in multimode waveguide paths.

A device for measuring the power of side vibrations, containing a measuring line, the probe of which is connected to the measuring receiver through a protective filter of carrier vibrations.

A disadvantage of the known device is the limited frequency range, since a different type of oscillation can propagate at a frequency above a certain critical line in the measurement line, and the harmonic measurement becomes unreliable at frequencies above this critical frequency of the waveguide with enlarged cross-sectional dimensions, in which, along the perimeter of the cross-section the cross section contains probes, the outputs of which through the switch are connected to the measuring input of the receiver, as well as the output waveguide transition, oh, t m, which, in order to increase the accuracy of measurement pri.sokraschenii complexity between the waveguide segment with increased cross-sectional dimensions and the output waveguide transition included notch filter side oscillations.

The closest technical solution to this invention is a device for measuring the power of side vibrations, containing a series-connected input waveguide transition and a segment of a waveguide with increased cross-sectional dimensions, in which probes are installed along the perimeter of the cross-section, the outputs of which are connected to the measuring input through a switch receiver, as well as output ^ waveguide transition.

However, the known device is not. provides high measurement accuracy and requires multiple measurements, which leads to an increase in the measurement duration.

The purpose of the invention is to increase accuracy while reducing the complexity of measurements.

To do this, in a device for measuring the power of side vibrations, containing a series-connected input waveguide transition and a segment of a waveguide with increased cross-sectional dimensions, in which probes are installed along the perimeter of the cross-section, the outputs of which are connected to the measuring input of the receiver through the switch, and also the output wave water transition, between the length of the waveguide with increased cross-sectional dimensions and the output waveguide transition is included. notch filter of side vibrations.

The drawing shows a structural electrical diagram of a device for measuring the power of side vibrations.

A device for measuring the power of side vibrations comprises an input waveguide transition 1, a segment of a waveguide 2 with enlarged cross-sectional dimensions, probes 3 connected through a switch 4 to a measuring input of a receiver 5, and a notch filter 6 of side vibrations mounted between a segment of a waveguide 2 and an output waveguide transition 7.

A device for measuring the power of side vibrations works as follows.

Electronic waves of side and carrier vibrations through the input waveguide transition 1 pass to the section of waveguide 2 g. Side vibrations are branched out using probes 3 and fed through switch 4 to receiver 5, by means of which their power is measured. Electro 10 magnetic waves from a segment of the waveguide 2 enter the notch filter 6, where there is a weakening of the waves of side vibrations, and the wave of carrier vibrations passes unchanged. Part of the power of the side frequencies together with the carrier vibrations through the output waveguide transition 7 enters the load of the waveguide path, in which the power of side vibrations is measured. The side vibrations reflected from the load are again attenuated by the notch filter 6.

Thus, the presence of a notch filter 6 leads to the fact that in the plane of the probes 3 in the segment of the waveguide 2 there are only supplying waves of side vibrations, and this allows for a single measurement to provide such a high accuracy, to achieve which, in the presence of reflected waves of side vibrations, multiple measurements and corresponding processing of measuring information.

Claims (1)

A DEVICE FOR MEASURING THE POWER OF THE SIDE VIBRATIONS, containing a series-connected input waveguide junction and a segment