SU1483520A1 - Microwave filter - Google Patents

Abstract

This invention relates to a microwave technique. The purpose of the invention is to reduce filter losses by increasing the self-quality factor of a biconical resonator (BR). The microwave filter contains input and output sections 1 and 2 of the waveguides connected by flanges 5 and 6 with BR 3. Inside the BR 3, the dielectric parallelepiped 4 is coaxially and symmetrically mounted so that its corners touch the inner surface of the BR 3 walls. 3 is concentrated near the parallelepiped 4, the density of the currents in the metal walls of the BR 3 decreases. Consequently, the losses in the walls of the BD 3 decrease and the energy stored in it increases, i.e. the intrinsic quality factor of the BR 3 is increased. This leads to a decrease in losses in the passband of the filter and an improvement in its selectivity. 3 il.

Description

figure 1

in the metal walls, BR 3 decreases. Consequently, the losses in the walls of the BD 3 decrease and the energy stored in it increases, i.e. the intrinsic quality factor of the BR 3 increases. This leads to a decrease in losses in the bandwidth of the filter and an improvement in its selectivity. 3 il.

This invention relates to a microwave technique and is intended for selection of signals in chains of paths.

The aim of the invention is to reduce the losses of Liltra by increasing its own quality factor.

Figure 1 shows the construction of a microwave filter; on Lig.2 - section aa in figure 1; on Lig.Z - section BB in Fig.1.

Microwave Lilter contains input and output segments of waveguides 1 and 2 and biconical resonator 3, inside which the dielectric parallelepiped 4 is coaxially and symmetrically mounted so that its corners touch the inner surface of the walls of the biconic resonator 3. Flanges 5 and 6 serve to connect waveguides 1 and 2 biconical resonator 3.

Microwave Liltr works as follows.

Coming from the input segment

Waveguide 1 The main wave excites a biconical resonator 3 with a dielectric parallelepiped (inserted) 4, oscillations of the biconical resonator in turn excite the main wave in the output segment of waveguide 2 in the Liltr's passband. Due to the coaxial and symmetrical placement of the dielectric

five

0

five

0

whose parallelepiped 4 in a biconical resonator 3 its walls do not adhere to the metal walls of the resonator

3, but only vertices. Due to the fact that the high-frequency field of the resonator 3 is concentrated inside and near the dielectric parallelepiped

4, the density of the currents in the metal walls of the biconical resonator 3 decreases as a result, losses decrease in the walls of the resonator 3 and the energy stored in it increases, i.e. the intrinsic quality factor of the biconical resonator 3 increases. An increase in the quality factor of the resonator in the filter leads, as is well known, to a reduction in losses in the passband and an improvement in its selectivity.

Claims (1)

Invention Formula A microwave filter containing the input and output waveguide segments, between which a biconical resonator is included, which is such that a dielectric parallelepiped is installed inside the biconical resonator coaxially and symmetrically, and to reduce losses by increasing the self-quality of the biconical resonator his nerves touch the walls of the biconical resonator. Aa Fig.Z