CN2502452Y

CN2502452Y - Multi-port gyropscope

Info

Publication number: CN2502452Y
Application number: CN 01252031
Authority: CN
Inventors: 熊元新
Original assignee: Wuhan University WHU
Current assignee: Wuhan University WHU
Priority date: 2001-09-30
Filing date: 2001-09-30
Publication date: 2002-07-24
Anticipated expiration: 2011-09-30

Abstract

The utility model relates to a multi-port gyroscope which comprises p is multiplied by q two-port gyroscope; wherein, the first inputting end is formed by the serial connection of the inputting ends of the q two-port gyroscope r<11>, r<12>, r<13>, ellipsis r<1q>, the second inputting end is formed by the serial connection of the inputting ends of q two-port gyroscope r<21>, r<22>, r<23>, ellipsis r<2q>, as the ordinal analogy, a P inputting end is formed by the serial connection of the inputting ends of q two-port gyroscope r<p1>, r<p2>, r<p3>, ellipsis r<pq>; a first outputting end of the multi-port gyroscope is formed by the serial connection of the outputting ends of p two-port gyroscope r<11>, r<21>, r<31>, ellipsis p1>, a second outputting end is formed by the serial connection of the outputting ends of p two-port gyroscope r<12>, r<22>, r<32>, ellipsis <p2>, as the ordinal analogy, a q outputting end is formed by the serial connection of the outputting ends of p two-port gyroscope r<1q>, r<2q>, r<3q>, ellipsis r<pq>. The multi-port gyroscope transfers multiple two-port capacitors to the multi-port inducers and can realize the much inputting as well as outputting port transformer. Because the multi-port gyroscopes all consist of electric apparatuses, so people use the multi-port gyroscope can satisfy the requirements for using the electric apparatuses to realize the much inputting as well as outputting port transformer and the multi-port inducer.

Description

Multiport gyrator

Technical field

The utility model relates to a kind of multiport gyrator, promptly many inputs, output port gyrator.

Background technology

Existing two port gyrators can convert two end capacitors to two end inductors, can realize two port transformer and filters, so its extensive use in Electronic Design.In order to realize multiple-input and multiple-output port transformer by a plurality of two end capacitors acquisition multiterminal inductors and with electronic device, people attempt to seek multiple-input and multiple-output port gyrator, i.e. (p+q) multiport gyrator.

Technical scheme

Problem to be solved in the utility model provides a kind of multiport gyrator, to satisfy the demand that realizes above-mentioned multiterminal inductor, multiple-input and multiple-output port transformer with electronic device.

The technical scheme that the utility model provides is: a kind of multiport gyrator, comprise p * q two port gyrators, and wherein p is the input port number, p＞1, q is the output port number, q＞1, p, q are natural number, and its special character is that the 1st input of multiport gyrator is by q two port gyrator r ₁₁, r ₁₂, r ₁₃..., r _1qInput be in series, the 2nd input is by q two port gyrator r ₂₁, r ₂₂, r ₂₃..., r _2qInput be in series, and the like, the p input is by q two port gyrator r _P1, r _P2, r _P3..., r _PqInput be in series; The 1st output of multiport gyrator is by p two port gyrator r ₁₁, r ₂₁, r ₃₁..., r _P1Output be in series, the 2nd output is by p two port gyrator r ₁₂, r ₂₂, r ₃₂..., r _P2Output be in series, and the like, the q output is by p two port gyrator r _1q, r _2q, r _3q..., r _PqOutput be in series.

Above-mentioned p≤100, q≤100.

Above-mentioned multiport gyrator of the present utility model can convert a plurality of two end capacitors to the multiterminal inductor, can realize multiple-input and multiple-output port transformer.Because multiport gyrator constitutes by electronic device, so can satisfy the demand that realizes multiple-input and multiple-output port transformer and multiterminal inductor with electronic device with multiport gyrator.

Description of drawings

Fig. 1 is the gyrator circuit structural representation that the utlity model has p+q port;

Fig. 2 is the gyrator circuit structural representation that the utlity model has 2+3 port;

Fig. 3 is the gyrator circuit structural representation that the utlity model has 3+3 port.

Embodiment

Referring to Fig. 1, the utility model comprises p * q two port gyrator r ₁₁, r ₁₂, r ₁₃..., r _1q, r ₂₁, r ₂₂, r ₂₃..., r _2q..., r _P1, r _P2, r _P3..., r _Pq, wherein p is the input port number, p＞1, and q is the output port number, q＞1, p, q are natural number, and the 1st input of multiport gyrator is by q two port gyrator r ₁₁, r ₁₂, r ₁₃..., r _1qInput be in series, the 2nd input is by q two port gyrator r ₂₁, r ₂₂, r ₂₃..., r _2qInput be in series, and the like, the p input is by q two port gyrator r _P1, r _P2, r _P3..., r _PqInput be in series; The 1st output of multiport gyrator is by p two port gyrator r ₁₁, r ₂₁, r ₃₁..., r _P1Output be in series, the 2nd output is by p two port gyrator r ₁₂, r ₂₂, r ₃₂..., r _P2Output be in series, and the like, the q output is by p two port gyrator r _1q, r _2q, r _3q..., r _PqOutput be in series.

Above-mentioned p≤100, q≤100.P and/or q also can be greater than 100 when certainly, needing.

Fig. 2 is the five-port gyrator circuit figure of p=2, q=3, and it comprises six two port gyrator r ₁₁, r ₁₂, r ₁₃, r ₂₁, r ₂₂, r ₂₃, its 1st input is by two port gyrator r ₁₁, r ₁₂, r ₁₃Input be in series, the 2nd input is by two port gyrator r ₂₁, r ₂₂, r ₂₃Input be in series, the 1st output is by two port gyrator r ₁₁, r ₂₁Output be in series, the 2nd output is by two port gyrator r ₁₂, r ₂₂Output be in series, the 3rd output is by two port gyrator r ₁₃, r ₂₃Output be in series.

Fig. 3 is the six port gyrator circuit figure of p=3, q=3, and it comprises nine two port gyrator r ₁₁, r ₁₂, r ₁₃, r ₂₁, r ₂₂, r ₂₃, r ₃₁, r ₃₂, r ₃₃, its 1st input is by two port gyrator r ₁₁, r ₁₂, r ₁₃Input be in series, the 2nd input is by two port gyrator r ₂₁, r ₂₂, r ₂₃Input be in series, the 3rd input is by two port gyrator r ₃₁, r ₃₂, r ₃₃Input be in series, the 1st output is by two port gyrator r ₁₁, r ₂₁, r ₃₁Output be in series, the 2nd output is by two port gyrator r ₁₂, r ₂₂, r ₃₂Output be in series, the 3rd output is by two port gyrator r ₁₃, r ₂₃, r ₃₃Output be in series.

Claims

1. a multiport gyrator comprises p * q two port gyrators, and wherein p is the input port number, p＞1, and q is the output port number, q＞1, p, q are natural number, it is characterized in that: the 1st input of multiport gyrator is by q two port gyrator r ₁₁, r ₁₂, r ₁₃..., r _1qInput be in series, the 2nd input is by q two port gyrator r ₂₁, r ₂₂, r ₂₃..., r _2qInput be in series, and the like, the p input is by q two port gyrator r _P1, r _P2, r _P3..., r _PqInput be in series; The 1st output of multiport gyrator is by p two port gyrator r ₁₁, r ₂₁, r ₃₁..., r _P1Output be in series, the 2nd output is by p two port gyrator r ₁₂, r ₂₂, r ₃₂..., r _P2Output be in series, and the like, the q output is by p two port gyrator r _1q, r _2q, r _3q..., r _PqOutput be in series.

2. multiport gyrator according to claim 1 is characterized in that: above-mentioned p≤100, q≤100.