JPH0756508Y2 - Duplexer for antenna - Google Patents

Description

[Detailed Description of the Invention] (Industrial field of application) The present invention uses an coaxial cable from an output terminal of an antenna and a series unit for joint reception of television to transmit a received television signal to VHF and UHF of a television receiver. The present invention relates to a demultiplexer circuit that demultiplexes so as to match the frequency of each input terminal.

(Prior Art) As a conventional technology regarding a duplexer for an antenna, when the input terminal is a coaxial connector and the split outputs of VHF and UHF are feeders, respectively, the circuit configuration of the duplexer is well known. A balun is needed inside. The size is as large as 6 mm in length and 12 mm in width.

(Problems to be Solved by the Invention) The circuit configuration of the conventional duplexer has the following problems. That is, the balun is necessary, the balun itself is large,
In addition, since the number of windings is at least 3 times, expensive baluns must be used.

The present invention has been made to solve the above problems. A small ferrite core is used and the winding ratio is 1: 2 and the number of windings is 1
It is an object of the present invention to provide a duplexer for an antenna that uses a transformer having a simple structure with two times.

(Means for Solving Problems) In order to solve this object, means as described in the scope of claims are taken, and its action is as follows.

(Operation) By setting the winding ratio of the transformer to be 1: 2, that is, the input side 2 to the output side 1, the output feeder can be matched with the characteristic impedance of the input side coaxial cable. Since the ferrite core can be downsized, the storage space can be reduced and the duplexer itself can be downsized and lightened.

Furthermore, since the number of turns of the matching transformer is smaller than that of the conventional transformer and has a simple structure, the transformer can be provided at a low price.

(Example) Hereinafter, drawings showing an example of the present application will be described.

In FIGS. 1 and 2, reference numeral 1 indicates a case body, and AB
It is made of synthetic resin material such as S resin. Reference numeral 2 denotes a circuit board, and in this example, a printed circuit board is used. 3 is a coaxial connector, which is an outer conductor 3a made of a conductive material.
And an inner conductor 3b made of a conductive material. 3c is a terminal portion of the outer conductor, and 3d is a terminal portion of the inner conductor. Reference numeral 4 is an input terminal provided on the circuit board, 4a is an input terminal, and 4b is a ground terminal. The input end 4a is electrically and mechanically connected to the terminal 3a of the coaxial connector and the ground end 4b is connected to the terminal 3c of the coaxial connector by soldering or the like. 6 is provided to correct the impedance of the input terminal, and is a capacitor formed between the center conductor connection side of the coaxial connector and the ground (ground) side. Reference numeral 7 is an impedance conversion transformer, which is constructed by winding polyurethane coated conductors 8 and 9 around a ferrite core. The transformer 7 is used so that the signal arriving at 7a from the input terminal is transmitted between 7b and 7c with good impedance matching. Impedance conversion transformer 7
The winding 8 has a conducting wire 8 provided between 7a and 7c once and a conducting wire 9 provided between 7a and 7b twice, and the winding ratio is 1: 2. The ferrite core is manufactured by Nippon Ferrite Co., Ltd.
The product name KP2S was used. The size of the ferrite core is L ₁ = 5m
It is a very small one with m and L ₂ = 6 mm. 10 is a coil, 11
Is a capacitor and forms a low pass filter,
The circuit board 2 is connected to a pair of output terminals 12 for a parallel feeder provided at the other end of the input terminals. The core wires of the feeder 13 are soldered to the output terminals 12, and the terminal pieces 14 that are easily connected to the antenna terminals of the television receiver are crimp-connected to the other ends of the feeders 13, respectively. Reference numeral 15 is a capacitor, and 16 is a coil, which forms a high-pass filter and is connected to a pair of output terminals 17 for a parallel feeder provided at the other end of the input terminal of the circuit board 2. The core wires of the feeder 18 are soldered to the output terminals 17, respectively.
At the other end, terminal pieces 19 that are easy to connect to the antenna terminals of the television receiver are crimp-connected. The input terminal, the output terminal, the ground terminal, each coil, the capacitor, and the like are configured by a conductor foil (copper, tungsten, or the like is used) attached to the circuit board 2 as shown in FIG. . As the means for attaching the conductor foil, known methods such as printed wiring means, vapor deposition means, etching means and the like are used. In the present example, the coils are formed in a spiral shape, but they may be zigzag coils or any other known structure. Each capacitor is composed of a comb-shaped electrode structure on the circuit board 2, which is formed by making electrode pieces attached to one surface and the other surface of the circuit board 2 face each other. It may be a capacitor. Further, as the coils and capacitors, ceramic capacitors, chip capacitors, three-dimensional coils, etc. may be used in addition to the above-mentioned printed patterns. Each circuit element on the circuit board 2 constitutes a circuit as shown in FIG.

In using the above-mentioned structure, when a coaxial cable is used as a power supply line from the antenna, the coaxial cable is connected to the coaxial plug as is well known and connected to the plug terminal 3, and the terminal of the parallel feeder 13 is connected. The piece 14 is connected to an antenna terminal for inputting a VHF signal in a television receiver. The terminal piece 19 of the parallel feeder 18 is connected to the antenna terminal for UHF signal input in the television receiver.

In this state, the VHF and UHF television signals sent from the coaxial cable are first output from the coaxial connector 3 through the transformer 7 through the low pass filter to the feeder 13 in the VHF television signal. To the antenna terminal for VHF signal input of the John receiver.
The UHF TV signal is output from the coaxial connector 3 through the transformer 7 through the high pass filter to the feeder 18, and reaches the antenna terminal for inputting the UHF signal of the TV receiver. The performance of the duplexer is
0.93 to 1.27 dB for VHF, 1.31 to 1.27 for UHF
It is dB. Furthermore, VSWR is 1.329 or less in VHF band, UH
It is less than 1.377 in the F band. Also, the stop band or attenuation is 1 in the VHF band.
Performance of 7dB or more and 18dB or more in the UHF band has been obtained.

(Effect of the Invention) As described above, according to the present invention, the matching transformer can be downsized, and the cost of the transformer can be reduced by setting the winding ratio to 1: 2 and the minimum number of turns to 1 and 2. As for the performance of the duplexer, there is little pass band or loss, and VSWR has VH
Both the F band and the UHF band have good values, a large stop band or attenuation amount, and a lightweight, high-performance small duplexer can be provided.

[Brief description of drawings]

The drawings show an embodiment of the present application. FIG. 1 is a view showing an input coaxial connector, a circuit board, and an output feeder, FIG. 2 is a circuit diagram of a duplexer, and FIG. 3 is a perspective view of a matching transformer. , FIG. 4 shows a characteristic diagram of the duplexer. 1 ... Case body, 2 ... Circuit board, 3 ... Coaxial connector, 13 ... Feeder, 18 ... Feeder

Claims (1)

[Scope of utility model registration request] 1. A low-pass filter for passing a VHF signal of a television signal and a high-pass filter for passing a UHF signal are provided, and a coaxial connector for inputting a signal through an impedance matching circuit is connected to both filters. Is a duplexer for an antenna in which the feeders 13 and 18 for outputting signals are individually connected to each filter, and the impedance matching circuit is wound once on the output side and input. In addition to connecting one side of the input side winding in the transformer with a winding ratio of 1: 2 to the input side of the high pass filter and the low pass filter, and the inner conductor of the coaxial connector,
Connect the other side of the input winding to the outer conductor of the coaxial connector,
An antenna characterized in that one side of the output side winding of the transformer is connected to both sides of the high-pass filter and the low-pass filter and the other side of the output side winding is connected to the outer conductor of the coaxial connector. For duplexer.