JPH0482402A - Directional filter and multiplexer - Google Patents

Abstract

PURPOSE:To enable two channels filters to be connected and to attain miniaturization and low insertion loss by connecting a 3dB hybrid circuit to the two input and output connectors of a dielectric resonator provided with double resonance mode, respectively. CONSTITUTION:The dielectric resonator 8 functions as two filters setting connectors 5, 5 and connectors 6, 6 as the input/output connectors. Also, since the size and shape in X and Y directions of two dielectric columns and cavities are equal, the resonance frequencies of both modes are equal, and the two filters function as channel filters with equal passing bands, respectively. One directional filter can be comprised by connecting two 3dB hybrid circuits to the dielectric resonator, and grounding the terminal T of an output side 3dB hybraid circuit 3' via a resistor. Therefore, it is possible to obtain a directional filter with sperior electrical characteristic and a multiplexer using the same, and to attain the miniaturization and light weight.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Industrial Application Field The present invention relates to directional filters and multiplexers using dielectric resonators.

(Bl. Prior Art) A device as shown in FIG. 6 is used as a transmission sharing device (combiner) that combines transmission signals from multiple channels and transmits the signal to a common output line or antenna.

In the 6th M, 2 is a channel full filter, 1 is a junction hox for combining the output signals of each channel filter, and the length of each transmission line is determined as shown in the figure.

(C1 Problem to be Solved by the Invention) However, in the conventional transmission sharing device shown in FIG. VSWR
becomes larger and insertion loss increases. To prevent this, there is a method of using a directional filter as shown in FIG. Fifth
In the figure, 33' is a 3 clB hybrid circuit, and two 3 dB hybrid circuits 3, 3' and two channel filters 2.2 constitute one directional filter. A shared transmission device is constructed by providing this directional filter for each channel.

However, in the method using such a directional filter, it is necessary to provide two channel filters (I-chance/M-chance), which inevitably results in a large size and high cost.

An object of the present invention is to provide a directional filter and multiplexer that are compact and have low insertion loss.

(61 Means for Solving the Problems) The directional filter of the present invention connects a 3 dB hybrid 7-wire circuit to each of the two input couplings and two output couplings of a dielectric resonator having a double resonant moat. It will be done.

Furthermore, the multiplexer of the present invention is provided with a directional filter for each channel, which is formed by connecting a 3 dB hybrid circuit to each of the two input couplers and the two output couplers of a dielectric resonator having a double resonance mode. Additionally, the outputs of the 3 dB hybrid circuits on each output side are connected in cascade.

te1 Effect In the directional filter of the present invention, a dielectric resonator having a double resonance mode acts as two channel filters having the same passband. Therefore, two chance filters are connected between the two 3 dB hybrid circuits, and the whole acts as one directional filter. Since the resonator used here is a dielectric resonator having a double resonance mode that resonates in two independent modes within the same cavity, a small, lightweight, and low-cost directional filter can be obtained.

Further, in the multiplexer of the present invention, a directional filter composed of a dielectric resonator having a double resonance mode and two 3 dB hybrid circuits is provided for each channel, and the output of each output side 3 dB hybrid circuit is Because of the cascade connection, only one dielectric resonator is required per channel, creating a small, lightweight, and low-cost multiplexer overall.

(fl Example) The configuration of a directional filter that is an example of the present invention is shown in FIG. 1, and its circuit diagram is shown in FIG. The operation is shown in FIGS. 3(A) and 3(B), respectively.

In FIG. 1, 8 is a dielectric resonator having a double resonator mode, and two 3 dB high print circuits 3 and 3' are connected to this dielectric resonator 8. Dielectric resonator 8
has a cross-shaped dielectric 4 provided in its cavity 7, two input/output couplers 5, 5 that couple to the magnetic field in the Y direction, and two input/output couplers 6, 6 that couple to the magnetic field in the X direction.
is attached. Two 3 dB hybrid circuits 3, 3' are each connected to two couplers 5, 6.

As shown in FIG. 2, the dielectric resonator is provided with a cross-shaped dielectric 4 made up of a vertical dielectric column 4X and a horizontal dielectric column 4Y in a cavity. This dielectric 4
As shown in FIG. 3(A), a resonance mode of T M + lo mode is generated by the vertical dielectric pillar 4x.
TM as shown in FIG. 3(B) by the horizontal dielectric pillars 4Y. A resonance mode of the mode occurs. These two modes are orthogonal to each other and become independent modes. Therefore, the dielectric resonator 8 shown in FIG. 1 acts as a first filter in which the couplers 5, 5 serve as signal output couplers, and a second filter in which the coupler 66 serves as a signal input/output coupler. . Furthermore, since the dimensions and shapes of the two dielectric pillars 4X and 4Y and the dimensions and shapes of the cavity in the X and Y directions are equal, the resonance frequencies of both modes are equal, and the first filter and the second filter are respectively It acts as a channel filter with equal passband. For this dielectric resonator, the first
One directional filter as shown in FIG. 4 is constructed by connecting two 3 dB hybrid circuits as shown in the figure and grounding the terminal T of the output side 3 dB hybrid circuit 3' via a resistor.

In addition, a multiplexer used in a shared transmission device etc. is constructed by providing a plurality of sets of directional filters having the configuration shown in Fig. 1 for each channel and cascading the outputs of the 3 dB hybrid' circuit in the output example. . FIG. 5 shows the UgJ road map. As shown in the same figure 2
Two channel filters 2, 2 and two 3 dB hybrid circuits 3 and 3' constitute a filter for one channel, and n sets of filters f1 to fn are arranged, and the output side of the 3 dB hybrid circuit 3 and 3' is are continuously connected as shown in the figure, and a terminating resistor R is connected to the output side 3 dB hybrid circuit 3' of the n-th channel. This configuration constitutes a multiplexer that combines the power of the n-channel signals inputted to 11 to fn and outputs the resultant signal to the output terminal OUT, which can be used as a shared transmission device.

In the embodiments of the present invention, a dielectric resonator with a hollow cavity is used as an example, but a metalized ceramic cavity may also be used, or a dielectric resonator in which a dielectric column and a cavity are integrated may be used. It's okay. Further, as the resonance mode, a double resonance mode other than the T M + + o mode can also be used.

In addition, in the embodiment, each Chan conflict filter is configured with one stage, but it may be configured with multiple stages as required. (g) Effect of the invention According to the present invention, the electrical A directional filter with excellent characteristics (insertion loss, VSWR) and a multiplexer using the same can be obtained, and the overall size, weight, and cost can be reduced.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a directional filter according to an embodiment of the present invention, FIG. 2 is a schematic perspective view of a dielectric resonator used in the directional filter, and FIG. 3 (A). (B) is a diagram showing the resonance mode of the dielectric resonator. FIG. 4 is a circuit diagram of a directional filter according to an embodiment. FIG. 5 is a circuit diagram of a multiplexer according to another embodiment. FIG. 6 is a circuit diagram of a conventional transmission sharing device. 1-junction box, 2-channel filter, 3.3'-3dB hybrid circuit, 4-dielectric, 5.6-signal input/output coupler. Figure 1

Claims (2)

[Claims] (1) A directional filter in which a 3 dB hybrid circuit is connected to each of two input couplers and two output couplers of a dielectric resonator having a double resonance mode. (2) A directional filter is provided for each channel by connecting a 3 dB hybrid circuit to the two input couplers and the two output couplers of the dielectric resonator with double resonance mode, and each output side A multiplexer characterized by cascading the outputs of 3dB hybrid circuits.