KR0136330B1 - Apparatus for frequency controlling of dielectric resonate oscillating circuit - Google Patents

Abstract

The present invention relates to a frequency adjusting device in a dielectric resonance oscillation circuit for ultra-high frequency oscillation. The present invention is characterized by a dielectric composed of a dielectric resonator, microstrip lines and active elements on a PCB and shielded with a shielding case having a cavity. In the resonator oscillation circuit, the upper surface of the shielding case is characterized in that the resonant frequency adjustment slits are provided on a vertical extension line from the dielectric resonator.

Accordingly, the present invention improves the operation of adjusting the dielectric resonance oscillation apparatus and can obtain cost reduction, size, and reduction effect.

Description

Frequency regulator of dielectric resonance oscillator

1 is a frequency adjusting device in a conventional dielectric resonance oscillation circuit.

2 is a vertical cross-sectional structure diagram of a frequency adjusting device in a dielectric resonance oscillator circuit of the present invention.

3 is a plan view of FIG.

4 is an enlarged view illustrating main parts of the present invention.

* Description of the symbols for the main parts of the drawings *

2… … PCB3... … Spacer

4… … ... Gene resonator 5. … pewter

8… … Micro strip line 9... … Active element

10, 10-1, 10-2... Slit 11... Shielding case

12... Conductive tape

The present invention relates to an oscillation circuit for generating an ultra high frequency oscillation frequency signal using a dielectric resonator. In particular, the frequency adjustment of the dielectric resonance oscillator circuit for adjusting the resonance frequency of the resonator using the proximity of the dielectric resonator and the shielding film Relates to a device.

In recent years, widespread wireless communication device, satellite communication or receiving device requires a very high oscillation frequency.

For example, LNB (frequency converter), which is an outdoor facility in a satellite broadcasting reception system, requires an extremely high frequency oscillation frequency of 10 GHz.

Since such an ultra-high frequency oscillation frequency signal cannot be realized by a conventional LC oscillation circuit, it is usually obtained from a dielectric oscillation circuit.

Dielectric oscillation circuits are basically a resonant circuit by a microstrip line on a PCB pattern disposed close to the dielectric resonator and the dielectric resonator, and an oscillation and amplification active device that amplifies the resonance frequency established by the resonant circuit. Is done.

Equivalent dielectric resonators have parallel RLC values.

The microstrip line also has an L value.

These values determine the resonant frequencies, which are induced in the microstrip line and transmitted to the active device to generate the oscillation frequency.

However, the dielectric resonator is a disk-shaped fixed structure, and its equivalent RLC value is invariant for each element. Therefore, to adjust the resonance value, the distance from the micro strip line is adjusted, which is not easy.

This is because the dielectric resonator once installed around the microstrip line is bonded to prevent movement.

Therefore, as the proposed technique, as shown in FIG. 1, the resonance frequency can be adjusted by adjusting the distance between the shield plate and the dielectric.

Looking at this in detail.

A dielectric resonator 4 which is floated by the spacer 3 on the PCB 2, a microstrip line 8 and an active element 9 arranged close to the dielectric resonator 4 are disposed, Upper and lower shielding cases 6 and 1 for shielding it are fastened by screws 7.

The shielding cases 1 and 6 are provided as a die casting structure.

On the other hand, as a device for adjusting the frequency of the dielectric resonator oscillator, the upper shielding case (6) is made to match the dielectric resonator (4) on the PCB to form a screw groove and insert the tuning screw (5).

Subsequently, by adjusting the tuning screw 5, the distance d from the dielectric resonator 4 is adjusted to adjust the dielectric resonance oscillation frequency.

However, such a conventional device for adjusting the dielectric resonance oscillation frequency causes an increase in weight and size since a minimum thickness for supporting the tuning screw 5 is required in the die casting upper shield case 6.

In addition, there is a need for a bonding operation or a TUIN screw locking device to fix the tuning screw after adjustment, and in the process, an increase in working time is indicated.

SUMMARY OF THE INVENTION An object of the present invention is to provide a frequency adjusting device of a dielectric resonance oscillating circuit that enables the reduction of assembly labor and cost reduction by simplifying the structure of the adjusting device for tuning the oscillating frequency of the dielectric resonance oscillating circuit.

A characteristic of the present invention is to form a slit on the upper surface of the upper shielding case of the thin film for shielding the dielectric resonance oscillation circuit, and adjust the bending depth of the slit to adjust the distance between the shield plate and the dielectric resonator simply. The resonance value is being adjusted.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

2 is a vertical cross-sectional structural diagram of the present invention, in which a dielectric resonator 4 is disposed on a PCB 2 through a spacer 3, and the micro stripline 8 and the periphery of the dielectric resonator 4 are disposed. The active element 9 is disposed.

The lower portion of the PCB (2) is fixed to the metal structure for shielding (1) and the upper part of the PCB (2) to cover the shielding case 11 of tin (tin) material having a cavity to fix the soldering of the PCB (2). .

On the upper surface of the shielding case 11, as shown in FIG. 3 showing the plane of the present invention, a vertical extension line from the dielectric resonator 4 is shown. Form the main slits 10 of the shape and the same on the left and right The shaped sub slits 10-1 and 10-2 are formed.

On these slits 10, 10-1, 10-2, the conductive tape 12 will be bonded after the dielectric resonance frequency adjustment.

The present invention of the structure as described above is as follows.

As referenced in FIGS. 2-4, a shield case 11 having a cavity comprising at least a dielectric resonator 4 on the PCB 2 and a microstrip line 8 is patterned on the PCB 2. It is soldered to be fixed by the solder (5) along.

Next, formed on the vertical extension line of the dielectric resonator 4 The oscillation frequency is adjusted while pushing the main slits 10 in the shape downwardly, that is, toward the dielectric resonator side, and finely adjusted by the sub slits 10-1 and 10-2.

After the frequency adjustment of the dielectric resonance oscillation circuit is completed through this process, the shielding case 11 is covered with a conductive tape 12 covering at least the slits 10, 10-1, and 10-2 to prevent leakage. Cover the top.

Accordingly, the resonant frequency is accurately amplified and oscillated in the active element 9 by the dielectric resonator 4 and the micro strip line 8 and by the slits 10, 10-1, and 10-2. Therefore, the oscillation output signal of a constant frequency can be obtained from the output side of the active element 9.

As described above, the present invention uses a thin-film tin shielding case to form a shielding cavity of the dielectric resonant circuit, thus eliminating the need for a die-casting shield structure requiring a constant thickness as in the conventional case. Size reduction becomes possible.

The present invention also enables the modularization of the dielectric resonant circuit.

In particular, the present invention, because the soldering and fixing the shielding case having the PCB and the cavity can avoid the ground fault phenomenon, the oscillation frequency adjustment workability is improved.

Claims (5)

In the dielectric resonant oscillation circuit composed of dielectric resonator, micro strip line and active elements on the PCB and shielded with a shielding case having a cavity, The frequency adjusting device of the dielectric resonance oscillation circuit, characterized in that the upper surface of the shielding case is provided with a resonant frequency adjustment slits on a vertical extension line from the dielectric resonator. The method of claim 1, And a sub slit for fine tuning the resonant frequency is provided around the resonant frequency adjusting slit provided on the shielding case. The method according to claim 1 or 2, The shielding case is a tin material and the frequency adjusting device of the dielectric resonance oscillation circuit, characterized in that the soldering fixed to the ground on the PCB. The method according to claim 1 or 2, The main and sub slits for adjusting the resonant frequency of the upper surface of the shielding case is covered with a conductive tape to prevent oscillation signal leakage after adjusting the resonant frequency. The method according to claim 1 or 2, Main and Sub Slit An apparatus for adjusting the frequency of a dielectric resonance oscillator circuit having a structure of a shape.