A systematic method for synthesizing multi-port networks specified by scattering matrices is proposed. First, a basic circuit for converting the port parameters is introduced. At each port the basic circuit converts the voltage and the current into the incident and the reflected wave quantities. Then each element of the scattering matrix is realized using the conventional techniques for the realization of one-input one-output transfer functions. When all the elements of the scattering matrix are either positive constant or zero, the resultant network can be simplified. With the proposed method, some known structures can be obtained very easily and two new structures for hybrid networks are derived. One of the salient feature of the proposed method is that it also provides the physical interpretation of structures derived. Experimental results are also given.
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Akinori NISHIHARA, Takeshi YANAGISAWA, "Realization of Multi-Port Networks Using Operational Amplifiers and Its Applications" in IEICE TRANSACTIONS on transactions,
vol. E65-E, no. 6, pp. 325-330, June 1982, doi: .
Abstract: A systematic method for synthesizing multi-port networks specified by scattering matrices is proposed. First, a basic circuit for converting the port parameters is introduced. At each port the basic circuit converts the voltage and the current into the incident and the reflected wave quantities. Then each element of the scattering matrix is realized using the conventional techniques for the realization of one-input one-output transfer functions. When all the elements of the scattering matrix are either positive constant or zero, the resultant network can be simplified. With the proposed method, some known structures can be obtained very easily and two new structures for hybrid networks are derived. One of the salient feature of the proposed method is that it also provides the physical interpretation of structures derived. Experimental results are also given.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e65-e_6_325/_p
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@ARTICLE{e65-e_6_325,
author={Akinori NISHIHARA, Takeshi YANAGISAWA, },
journal={IEICE TRANSACTIONS on transactions},
title={Realization of Multi-Port Networks Using Operational Amplifiers and Its Applications},
year={1982},
volume={E65-E},
number={6},
pages={325-330},
abstract={A systematic method for synthesizing multi-port networks specified by scattering matrices is proposed. First, a basic circuit for converting the port parameters is introduced. At each port the basic circuit converts the voltage and the current into the incident and the reflected wave quantities. Then each element of the scattering matrix is realized using the conventional techniques for the realization of one-input one-output transfer functions. When all the elements of the scattering matrix are either positive constant or zero, the resultant network can be simplified. With the proposed method, some known structures can be obtained very easily and two new structures for hybrid networks are derived. One of the salient feature of the proposed method is that it also provides the physical interpretation of structures derived. Experimental results are also given.},
keywords={},
doi={},
ISSN={},
month={June},}
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TY - JOUR
TI - Realization of Multi-Port Networks Using Operational Amplifiers and Its Applications
T2 - IEICE TRANSACTIONS on transactions
SP - 325
EP - 330
AU - Akinori NISHIHARA
AU - Takeshi YANAGISAWA
PY - 1982
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E65-E
IS - 6
JA - IEICE TRANSACTIONS on transactions
Y1 - June 1982
AB - A systematic method for synthesizing multi-port networks specified by scattering matrices is proposed. First, a basic circuit for converting the port parameters is introduced. At each port the basic circuit converts the voltage and the current into the incident and the reflected wave quantities. Then each element of the scattering matrix is realized using the conventional techniques for the realization of one-input one-output transfer functions. When all the elements of the scattering matrix are either positive constant or zero, the resultant network can be simplified. With the proposed method, some known structures can be obtained very easily and two new structures for hybrid networks are derived. One of the salient feature of the proposed method is that it also provides the physical interpretation of structures derived. Experimental results are also given.
ER -