JPS5938721Y2 - dielectric drop-in filter - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a filter using a dielectric resonator, and particularly to a dielectric drop-in filter module that can be easily dropped into a MIC circuit.

The high frequency part of microwave communication equipment is an isorter, mixer,
Consists of microwave devices such as amplifiers.

Conventionally, each of these devices has a waveguide or coaxial structure, and the devices are connected from the waveguide or coaxial cape.

However, there are limits to miniaturization with this method,
Since there is a limit to lowering the price, one way to solve these problems is to modularize the microwave circuit by integrating the entire microwave circuit into 1 MIc.

On the other hand, the microwave filters used in these devices have conventionally been of the waveguide or semi-coaxial type.

Figure 1 shows a conventional semi-coaxial type filter, where 1 is an input connector, 2 is a coupling element, 3 is a resonant element, 4 is an output connector,
Reference numeral 5 indicates an outer conductor.

6 is a frequency adjustment screw for adjusting the resonance frequency by changing the length of the tip of the resonant element 3, and 7 is a coupling adjustment screw for adjusting the connection between the resonant element and the coupling element or between the resonant elements.

Since it has such a structure, it cannot be said that it is a suitable structure to be integrated into a MIC module.

Furthermore, a filter with a semi-coaxial structure has the disadvantage that as the frequency increases, the no-load Q deteriorates and the insertion loss increases.

The present invention was made to eliminate the above-mentioned drawbacks of the conventional technology, and therefore, the purpose of the present invention is to provide a device that can be used by dropping it into a MIC circuit, and has little deterioration in no-load Q even when the frequency increases. The object of the present invention is to provide a new microwave filter.

The above object of the present invention is to fix a dielectric substrate on which input/output coupling lines are provided by vapor deposition or etching on a subcarrier, arrange a dielectric resonator on the substrate, and further shield leakage electromagnetic fields with a shield cover. Connection with other circuits is achieved by a dielectric drop-in filter that can be directly connected to the input/output coupling line on the dielectric substrate using a ribbon or the like.

Recently, dielectric resonators have been developed that have a high dielectric constant, an unloaded Q of the same level as a waveguide, and good frequency stability.

By using this dielectric resonator, it is possible to significantly downsize conventional cavity resonators, so by using it as a resonant element in oscillators and filters, it is effective for downsizing and lowering the cost of microwave devices. It is.

Next, a preferred embodiment of the present invention will be explained in detail with reference to FIGS. 2a to 4.

Figures 2a and 2b show the structure of an embodiment of the dielectric drop-in filter according to the present invention.
Reference number 11 indicates an air-centered cylindrical dielectric resonator with good spurious characteristics, 12 indicates a support, and 13 indicates a dielectric substrate. On the dielectric substrate 13, there is an arc-shaped coupling coupled to the dielectric resonator 11. A loop (input/output coupling line) 14 is constructed by vapor deposition or etching.

The degree of coupling is determined by the height h of the support shown in FIG. 2a and the angle θ of the coupling loop 14 shown in FIG.

15 is a subcarrier, and 16 is a shield cover.

FIG. 3 is a sectional view taken along line A-A' in FIG. 2a.

FIG. 4 is a sectional view taken along line BB' in FIG. 2a.

In Figures 3 and 4, reference numbers 11 to 16 refer to Figure 2a.
17 is a resonance frequency adjustment screw, and 18 is a coupling adjustment screw.

The heads of the adjustment screws 17 and 18 are cut off so as not to protrude from the subcarrier portion 15 after electrical adjustment.

Because of this structure, in order to connect the dielectric drop-in filter of the present invention to other devices, it is only necessary to connect the input/output coupling line with a ribbon, etc.
It is easy to interface with a MIC circuit and is suitable for modularization of microwave circuits.

As explained above, the dielectric filter module according to the present invention is suitable for drop-in use in a MIC circuit. According to the present invention, mixers, amplifiers, isolators, etc. are modularized and connections are made between each device. By doing so, it is possible to integrate the microwave circuit.

[Brief explanation of drawings]

FIG. 1 is a schematic perspective view showing the internal structure of a conventional semi-coaxial type filter, and FIGS. 2a and 2b are schematic perspective views showing an embodiment of a dielectric drop-in filter according to the present invention.
Figure 3 is a sectional view taken along the line A-A' in Figure 2a and seen in the direction of the arrow, and Figure 4 is a cross-sectional view taken along the line B-B' in Figure 2a in the direction of the arrow. FIG. 1... Input connector, 2... Input/output coupling element, 3...
Resonant element, 4... Output connector, 5... External conductor, 6...
...Frequency adjustment screw, 7...Coupling adjustment screw, 11...
・Dielectric resonator, 12... Support, 13... Dielectric substrate, 14... Input/output coupling line, 15... Subcarrier, 16... Shield cover, 17... Frequency adjustment screw , 18... Connection adjustment screw.

Claims (1)

[Scope of utility model registration request] It has a structure in which a dielectric substrate on which input/output coupling lines are provided by vapor deposition or etching is fixed on a subcarrier, a dielectric resonator is placed on the substrate, and leakage electromagnetic fields are further shielded with a shield cover. The dielectric drop-in filter can be connected to the circuit using a ribbon or the like directly to the input/output coupling line on the dielectric substrate.