SU1092616A1 - Tuneable microwave filter - Google Patents

Abstract

Adjustable UHFILTER, containing an outlying waveguide, in which the dielectric pins are installed with the possibility of changing the immersion depth and placed the input and output capacitive coupling screws, characterized in that, in order to improve the selectivity while maintaining the frequency tuning range, at least two bulk resonators are inserted into it associated with the beyond the waveguide through the communication holes, while the distance between the centers of the communication holes is at least half the longitudinal size of the holes And the distance between the center of the communication hole and the axis of the corresponding dielectric pin is not less than the sum of the radius of the dielectric plug and half the longitudinal size of the communication hole. ABOUT)

Description

low-frequency and high-frequency slopes of the frequency response. Since an aperiodic wave process takes place in the region of the outward waveguide 1, the distance to the connection points of the cavity resonators 4 does not depend on the operating frequency of the tunable microwave filter and does not affect its own quality factor. Thus, it is possible in principle to increase the selectivity with a wide frequency tuning and fixed connection points for the cavity resonators 4. The frequency tuning is performed by changing the immersion depth of the dielectric pins 2 inside the limiting waveguide 1. For tuning the volume resonators 4, you can use trimmer screws 7, introduced into cavity resonators 4. In order to maintain the law of distribution of external and loaded Q-factors during frequency tuning in sections n The drive w, ie is out-of-limit waveguides 6 and 1, use input and output capacitive coupling screws 8. To eliminate the mutual influence of the volume resonators 4 on each other and prevent the occurrence of transverse resonance, the communication holes 3 in the walls of the outgoing waveguide 1 are spaced in the longitudinal direction . It was found that the influence of these factors can be neglected if the distance between the centers of the communication holes 3 is more than half the longitudinal length of the communication hole 3. However, the location of the communication holes 3 opposite the dielectric pins is undesirable due to a noticeable detuning of the frequency response of the filter. It was found that the detuning of the frequency response of the filter does not occur if the distance between the centers of the communication holes 3 and the axis of the dielectric pin 2 is not less than the sum of the radius of the dielectric pin 2 and half the longitudinal size of the communication hole 3. Experimental studies have shown that this tunable microwave filter in relation to the prototype, there is a greater barrier on the ZDB and a 5-fold greater frequency adjustment range, which is 20-25%.

Claims (1)

A tunable microwave filter containing a transverse waveguide in which dielectric pins are mounted with the possibility of changing the immersion depth and the input and output capacitive coupling screws are located, characterized in that, in order to improve selectivity while maintaining the frequency tuning range, at least two volume resonators are introduced into it associated with the transcendental waveguide through the communication holes, while the distance between the centers of the communication holes is at least half the longitudinal size of the communication holes, and the distance between the center of the communication hole and the axis of the corresponding dielectric pin is not less than the sum of the radius of the dielectric pin and half the longitudinal size of the communication hole. ω