JPH0370311A - Impedance synthesizing circuit - Google Patents

Abstract

PURPOSE:To evade a high impedance at a frequency region being out-band by providing 2nd, 3rd impedance synthesizers and an adder adding outputs of 1st-3rd impedance synthesizers and outputting the result of addition to an output terminal. CONSTITUTION:Second, 3rd impedance synthesizers 8, 9 and an adder 10 adding outputs of 1st-3rd impedance synthesizers 7-9 are provided. Then the transfer function of the impedance synthesizers 7-9 is selected so that the sum of the transfer function of the 2nd, 3rd impedance synthesizers 8, 9 and the transfer function of the 1st impedance synthesizer T is equal to the combined impedance at an in-band frequency region between a 1st input terminal 1 and an output terminal 3. Thus, the combined impedance at an in-band frequency region between the 1st input terminal 1 and the output terminal 3 at out-band frequency region is not a high impedance but a definite impedance without changing the combined impedance at an in-band frequency region between the 1st input terminals 1, 2 and the output terminal 3 in the in-band frequency region.

Description

[Detailed description of the invention]

[Industrial Application Field] The present invention relates to an impedance synthesis circuit including an impedance synthesizer that performs discrete processing.

[Conventional technology]

Conventionally, this type of impedance synthesis circuit has been
As shown in the figure, an input terminal 1.2, an output terminal 3, and a low-pass filter 4 connected to the input terminal 1.2, respectively.
．． 5, an adder 6 that adds the outputs of the low-pass filters 4 and 5, and an impedance synthesizer 7 whose input end is connected to the adder 6 and whose output end is connected to the output terminal 3. [Problem to be solved by the invention 1 The conventional impedance synthesis circuit described above is composed of an impedance synthesizer that performs discrete processing, and a low-pass filter is provided on the input side to prevent aliasing due to out-of-band sound. Therefore, it has the disadvantage that it becomes high impedance in the frequency region outside the band. The object of the present invention is that in the frequency domain within the band, the impedance between each input terminal 1.2 and the output terminal 3 is the same as the conventional one, and in the frequency domain outside the band, the impedance between the input terminal 1 and the output terminal 3 is The object of the present invention is to provide an impedance synthesis circuit in which the impedance is not a high impedance but a finite impedance. [Means for Solving the Problems] The impedance synthesis circuit of the present invention includes: a first input terminal, a second input terminal, an output terminal, and an input terminal connected to the first and second input terminals, respectively. a first and second low-pass filter, a first adder that adds the output of the first low-pass filter and the output of the second low-pass filter, an output of the first adder, a first input terminal,
first, second, and third impedance combiners respectively connected to the output of the second low-pass filter;
, a second adder that adds each output of the third impedance synthesizer and outputs the addition result to the output terminal, the transfer functions of the second and third impedance synthesizers are equal, and the first impedance The sum of the transfer functions of the synthesizer and the second impedance synthesizer, and the sum of the transfer functions of the first impedance synthesizer and the third impedance synthesizer are both in-band frequencies between the first input terminal and the output terminal. The impedance synthesis circuit has an impedance synthesis circuit equal to the synthesis impedance in the region. [Function] In the frequency domain within the band, the transfer function of the composite impedance between each input terminal and output terminal is equal, and the sum of the transfer functions of the first impedance synthesizer and the second or third impedance synthesizer is the same. , which is the same as the transfer function of the conventional impedance synthesis circuit. Furthermore, in a frequency domain outside the band, the transfer function of the composite impedance between the first input terminal and the output terminal becomes the transfer function of the second impedance synthesizer. [Example] Next, an example of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of an embodiment of the impedance synthesis circuit of the present invention. This impedance synthesis circuit adds an input terminal 12, an output terminal 3, low-pass filters 4 and 5 whose input terminals are respectively connected to the input terminal 1.2, and the output of the low-pass filter 4 and the output of the low-pass filter 5. adder 6;
Impedance synthesizers 7.8. connected to the output of the adder 6, the input terminal 1, and the output of the low-pass filter 5, respectively.
9 and an adder 10 that adds the respective outputs of the impedance synthesizers 7 and 8.9 and outputs the addition result to the output terminal 3. The transfer function of the impedance synthesizer 8.9 is both HA, and the input Assuming that the transfer function of the composite impedance in the in-band frequency domain between the terminal l and the output terminal 3 is Hz, the transfer function of the impedance synthesizer 7 is Hz-HA. Therefore, in the frequency domain within the band, the transfer function of the composite impedance between the input terminal 1 and the output terminal 3 is Hz, which is the sum of the transfer function HA of the impedance synthesizer 9 and the transfer function Hz - HA of the impedance synthesizer 7. Similarly, the transfer function of the composite impedance between input terminal 2 and output terminal 3 is also Hz, which is the same as the transfer function of the conventional impedance composition circuit. The transfer function of the composite impedance between is HA. [Effects of the Invention] As explained above, the present invention includes the second and third impedance combiners, the first... Second. A second adder is provided to add the outputs of the third impedance combiner, and the sum of the transfer functions of the second and third impedance combiners and the transfer function of the first impedance combiner is connected to the first input terminal. By setting the transfer function of each impedance synthesizer to be equal to the composite impedance in the in-band frequency domain between the output terminals, the composite impedance between each input terminal and output terminal can be set without changing in the in-band frequency domain. There is an effect that the combined impedance between the first input terminal and the output terminal can be made into a finite impedance instead of a high impedance even in a frequency region outside the band.

[Brief explanation of drawings]

FIG. 1 is a block diagram of an embodiment of an impedance synthesis circuit according to the present invention, and FIG. 2 is a block diagram of an example of a conventional impedance synthesis circuit. 1.2... Input terminal, 3...
...Output terminal, 4.5...Low pass filter, 6.10...Adder, 7.8.9...Impedance Synthesizer.

Claims (1)

[Claims] 1. A first input terminal, a second input terminal, an output terminal, and first and second low-pass filters whose input terminals are connected to the first and second input terminals, respectively. and a first adder that adds the output of the first low-pass filter and the output of the second low-pass filter, and the output of the first adder, the first input terminal, and the output of the second low-pass filter, respectively. a connected first, second, and third impedance combiner; and a second adder that adds each output of the first, second, and third impedance combiners, and outputs the addition result to an output terminal; The transfer functions of the second and third impedance combiners are equal, the sum of the transfer functions of the first impedance combiner and the second impedance combiner, and the sum of the transfer functions of the first impedance combiner and the third impedance combiner. An impedance synthesis circuit in which the sum of the transfer functions of is equal to the composite impedance in the in-band frequency domain between the first input terminal and the output terminal.