CS270613B1 - An electrically tuned resonant circuit with a die-like resonator - Google Patents

Abstract

The solution falls into the field of tuning resonant circuits. The problem of the tuning structure is solved so that it does not affect the mechanical tuning characteristic and is easy to implement and set up. Problems with the design of the power supply leads are eliminated. The essence is the placement of semicircular microstrip segments (4) on the substrate (Z) along the dielectric resonator (1). An electrically variable element (6), for example a varactor, is included in the gap between the two segments (4). The power supply leads (5) to the electrically variable element (6) are connected to both segments (4).

Description

The invention relates to an electrically tuned resonant circuit with a dielectric resonator located on the substrate of a microstrip line. The problem of tuning structure is solved so that it does not affect the mechanical tuning characteristics and is not demanding on implementation and setting.

Electric resonators are used as frequency stabilizers in various microwave devices, such as filters, oscillators and the like, which are implemented by microwave circuit technology. '

The dielectric resonator is located on the microstrip substrate near the line to which it is attached by the magnetic component of the field. The tuning target forms a tuning conductive surface, which is located manually above the resonator. By changing the distance of the target above the resonator you can tune; resonant frequency. If electrical tuning of the resonant circuit is required, the tuning system with electrically variable elements is located between the tuning target and the dielectric resonator or on the surface of the tuning target. However, the described solution is disadvantageous in that there are problems with the supply of tuning voltage, with increasing demands on the mechanical construction, i-. such as coaxiality and parallelism with a dielectric resonator, with suppression of the influence of tuning targets on the frequency and others. Due to the mentioned disadvantages, the quality factor of the circuit is reduced, the tuning characteristic becomes discontinuous and the frequency setting becomes complicated.

The above disadvantages are eliminated by an electrically tuned resonant circuit with a dielectric resonator according to the invention, which is placed on a substrate of a microstrip line and which consists in placing on the substrate a semicircular microstrip segment which is interrupted and into the gap between the two. The parts include an electrical variable element with power supplies for both parts of the semicircular microstrip segment.

The higher effect of the solution according to the invention in comparison with the prior art methods is that the tuning structure hardly affects the mechanical tuning characteristics, is easy to implement and set up, and there are no problems with the construction of the supply leads. Throughout the mechanical retuning band, the benefit of electrical tuning is roughly constant. About 20 MHz has been reached by retuning the varactor by 0 to 13 V at 11.5 GHz, and performance is minimally affected.

An electrically tuned resonant circuit with a dielectric resonator is further described with reference to the accompanying drawing. . .

The dielectric resonator χ is located at. substrate 2 of the microstrip line next to the microstrip line 2 · On the opposite side of the dielectric resonator an interrupted semicircular segment 2 ³ is connected by power leads 2> an electrically variable element 2 is placed in the segment gap. the length of the intermittent segment lying in the direction of the electric component of the field, and thus the resonant frequency of the resonant circuit.

The use comes into consideration in all circuits with a dielectric resonator, on which the requirement of electrical tuning is placed.

Claims (2)

OBJECT OF THE INVENTION An electrically tuned resonant circuit with a dielectric resonator, which is placed on a substrate of a microstrip line, characterized in that a semicircular microstrip segment (4) is placed on the substrate (2) along the dielectric resonator (1), which is interrupted and into the gap between the two. parts, an electrically variable element (6) with power supplies (5) of both parts of the semicircular microstrip segment (4) is included. 2. An electrically tuned resonant circuit according to claim 1, characterized in that the variable element (6) is formed by a varactor. . '