JPH0625042Y2 - Splitter / mixer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a demultiplexer / mixer that demultiplexes or mixes radio waves of different frequencies.

[Prior Art and Its Deficiencies] As this type of demultiplexer / mixer, the one shown in FIG. 3 is known. That is, in FIG. 3, 11 and 12 are input / output terminals, 13 and 14 are bandpass filters (hereinafter referred to as BPFs) tuned to frequencies 1 and 2, respectively, 15 is a connection cable, and 16 is For example, a T-branch 2 divider 17 is an input / output terminal, and mixes the radio waves of frequencies 1 and 2 input to the input / output terminals 11 and 12 and outputs the mixed radio waves from the input / output terminal 17, or inputs. Output terminal 17
The radio waves of frequencies 1 and 2 input to the are input and output to the input / output terminals 11 and 12.

However, in the demultiplexer / mixer having such a configuration, as shown in the frequency vs. attenuation characteristic diagram of FIG. 4, for example, the radio wave of frequency 1 input from the input / output terminal 11 leaks to the input / output terminal 12. However, there is a drawback that a high-frequency component leaks from one input / output terminal to the other input / output terminal, such as radio waves of frequency 2 input from the input / output terminal 12 leaking to the input / output terminal 11.

Therefore, conventionally, as shown in FIG. 5, a notch filter 21 in which the frequency of the attenuation pole is tuned to 2 and a notch filter 22 in which the frequency of the attenuation pole is tuned to 1 are added to configure one of The high frequency component leaking from the input / output terminal to the other input / output terminal was attenuated. FIG. 6 is a characteristic diagram of frequency vs. attenuation in the demultiplexer / mixer of FIG. 5, and the portions indicated by arrows A and B are portions attenuated by the notch filters 21 and 22.

However, in the demultiplexer / mixer shown in FIG. 5,
Although the degree of separation between frequency 1 and frequency 2 is sufficient, since notch filters 11 and 12 are added, there are drawbacks that the overall shape becomes large and the insertion loss in the pass band increases.

[Object of the Invention] The present invention has been made in view of the above points, and it is possible to attenuate the leaked high-frequency component without increasing the size and increase the insertion loss, and to obtain sufficient frequency separation. wave·
It is intended to provide a mixer.

[Summary of the Invention] That is, the demultiplexer / mixer according to the present invention is provided with a plurality of different band-pass filters, and is used in a demultiplexer / mixer for demultiplexing or mixing radio waves of different frequencies according to frequencies. By inserting and connecting a high-frequency component attenuation circuit formed by connecting a coupling element (for example, a capacitor) and a phase element (for example, a variable phase shifter) in series between the input and output terminals of the plurality of different band pass filters, It is characterized in that high frequency components leaking between the input and output terminals are attenuated.

[Embodiment of the Invention] A demultiplexer according to an embodiment of the present invention will be described below with reference to the drawings.
The mixer will be described. FIG. 1 is a block diagram showing a circuit configuration of a demultiplexer / mixer according to an embodiment.

That is, this demultiplexer / mixer is connected to the BPFs 31 and 32 via a bandpass filter (hereinafter referred to as BPF) 31 tuned to frequency 1, a BPF 32 tuned to frequency 2, and a connection cable 33. For example, a T-branch two-way divider 34 is provided, and radio waves of frequencies 1 and 2 input to the input / output terminals 35 and 36 are mixed and output from the input / output terminal 37, or to the input / output terminal 37. The input radio waves of frequencies 1 and 2 are demultiplexed and output from the input / output terminals 35 and 36.

Here, the input / output terminals 35 and 36 of the two different BPFs 31 and 32, respectively.
A high-frequency component attenuating circuit 38 for attenuating the high-frequency component leaking between the input / output terminals 35 and 36 is inserted and connected therebetween. This high frequency component attenuation circuit 38
A coupling element (for example, coupling capacitor) 39 and 40 for frequency 1 and a phase element (for example, variable phase shifter) 41 for frequency 1 which are connected in series between 35 and 36 and between the input / output terminals 35 and 36. It is composed of coupling elements 42 and 43 for frequency 2 (for example, coupling capacitors) and a phase element (for example, variable phase shifter) 44 for frequency 2 which are serially connected to each other.

In the demultiplexer / mixer configured in this manner, for example, the radio wave of frequency 1 input from the input / output terminal 35 is reflected by the BPF 32 tuned to frequency 2, but part of the input / output for frequency 2 is used. It leaks to terminal 36. Here, the electric wave leaking to the input / output terminal 36 reaches the input / output terminal 36 through the high frequency component attenuation circuit 38. The high frequency component attenuating circuit 38 includes a coupling element 39 for 1 and a phase element for 1
Radio waves reaching the input / output terminal 36 via the coupling elements 40 for 41 and 1 have opposite phases and the same amplitude. Therefore, in the high-frequency component attenuation circuit 38, the radio wave having the opposite phase and the same amplitude and the leaking radio wave cancel each other to generate an attenuation pole, and the radio wave leaking to the input / output terminal 36 is significantly increased. Decay.

On the other hand, with respect to the radio wave of frequency 2 input from the input / output terminal 36, the high frequency component attenuating circuit 38 including the coupling elements 42 and 43 for frequency 2 and the phase element for frequency 2 also performs the same as the case of the radio wave of frequency 1. According to the principle, the electric wave leaking to the input / output terminal 1 can be greatly attenuated.

FIG. 2 is a characteristic diagram of frequency vs. attenuation amount in the demultiplexer / mixer of FIG. 1, and the portions indicated by arrows C and D are portions attenuated by the high frequency component attenuation circuit 38.

Thus, according to this embodiment, for example, the radio wave of frequency 1 input from the input / output terminal 35 leaks to the input / output terminal 36, and the radio wave of frequency 2 input from the input / output terminal 36 is input to the input / output terminal 35. High frequency components leaking from one input / output terminal to the other input / output terminal can be attenuated, and sufficient frequency separation can be obtained. in this case,
The amount of branching the radio wave input from the input / output terminals 35 and 36 to the high frequency component attenuation circuit 38 is a value of 1/10 ³ to 1/10 ⁴ or less of the normal value. Therefore, the insertion loss of the pass band with respect to the BPFs 31 and 32 due to the addition of the high frequency component attenuation circuit 38 becomes negligible. Further, since the high frequency component attenuation circuit 38 can be configured by a simple circuit, the overall shape does not increase in size.

In this embodiment, the radio waves of frequencies 1 and 2 input to the input / output terminals 35 and 36 are mixed to input / output terminal 37.
The operation as a so-called mixer, which is output from the above, has been described, but it goes without saying that a so-called mixer that splits the radio waves of frequencies 1 and 2 input to the input / output terminal 17 and outputs them from the input / output terminals 11 and 12 is output. It also operates as a duplexer, and in this case, the same effect as described above can be obtained.

[Advantage of the Invention] As described above, according to the present invention, since the high-frequency component attenuating circuit formed by connecting the coupling element and the phase element in series is added between the input and output terminals of the plurality of different bandpass filters, The leaked high frequency component can be attenuated and sufficient frequency separation can be obtained without increasing the size and increasing the insertion loss.

[Brief description of drawings]

FIG. 1 is a block diagram showing a circuit configuration of a demultiplexer / mixer according to an embodiment of the present invention, FIG. 2 is a characteristic diagram of frequency vs. attenuation in the demultiplexer / mixer of FIG. 1, and FIG. FIG. 4 is a block diagram showing a circuit configuration of a conventional demultiplexer / mixer, FIG. 4 is a characteristic diagram of frequency vs. attenuation in the demultiplexer / mixer of FIG. 3, and FIG. 5 is the conventional demultiplexer / mixer. A block diagram showing a circuit configuration when a notch filter is added to the mixer,
FIG. 6 is a characteristic diagram of frequency vs. attenuation in the demultiplexer / mixer shown in FIG. 31,32… BPF, 33… Connection cable, 34… 2 distributor, 35
~ 37 ... Input / output terminals, 38 ... High frequency component attenuation circuit, 39, 40 ...
Coupling element, 41 ... Phase element, 42, 43 ... Coupling element, 44 ... Phase element.

Claims (1)

[Scope of utility model registration request] 1. A demultiplexer / mixer comprising a plurality of different band-pass filters, for demultiplexing or mixing radio waves of different frequencies according to frequencies, wherein: A plurality of high-frequency component attenuating circuits, each of which has a coupling element and a phase element connected in series, are provided between each input / output terminal according to the characteristics of each band-pass filter. A demultiplexer / mixer characterized in that the quantity is set so as to have an antiphase relationship with an undesired high-frequency component leaking from each band-pass filter, and the high-frequency component is attenuated.