### Abstract

A simple and systematic synthesis procedure, based on a state-variable approach and the reactance extraction principle is presented. Any g multiplied by p matrix T(s) of real rational function of the complex frequency variable s can be realized as the short-circuit transfer admittance matrix of a multiport active RC network. The realization requires a minimum number of n-capacitors with unity capacitance spread, n, equal to the degree of T(s) and at the most (p plus 2n) inverting grounded voltage amplifiers. All the capacitors and ports will share a common ground.

Original language | English |
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Title of host publication | Unknown Host Publication Title |

Pages | 569-577 |

Number of pages | 9 |

Publication status | Published - 1976 |

Event | Proc Annu Allerton Conf Circuit Syst Theory 14th - Monticello, IL, USA Duration: Sep 29 1976 → Oct 1 1976 |

### Other

Other | Proc Annu Allerton Conf Circuit Syst Theory 14th |
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City | Monticello, IL, USA |

Period | 9/29/76 → 10/1/76 |

### Fingerprint

### ASJC Scopus subject areas

- Engineering(all)

### Cite this

*Unknown Host Publication Title*(pp. 569-577)

**ACTIVE RC MULTIPORT SYNTHESIS OF A TRANSFER ADMITTANCE MATRIX WITH A MINIMUM NUMBER OF CAPACITORS.** / Khan, Khalil Ahmad; Ahmad, Afaq.

Research output: Chapter in Book/Report/Conference proceeding › Chapter

*Unknown Host Publication Title.*pp. 569-577, Proc Annu Allerton Conf Circuit Syst Theory 14th, Monticello, IL, USA, 9/29/76.

}

TY - CHAP

T1 - ACTIVE RC MULTIPORT SYNTHESIS OF A TRANSFER ADMITTANCE MATRIX WITH A MINIMUM NUMBER OF CAPACITORS.

AU - Khan, Khalil Ahmad

AU - Ahmad, Afaq

PY - 1976

Y1 - 1976

N2 - A simple and systematic synthesis procedure, based on a state-variable approach and the reactance extraction principle is presented. Any g multiplied by p matrix T(s) of real rational function of the complex frequency variable s can be realized as the short-circuit transfer admittance matrix of a multiport active RC network. The realization requires a minimum number of n-capacitors with unity capacitance spread, n, equal to the degree of T(s) and at the most (p plus 2n) inverting grounded voltage amplifiers. All the capacitors and ports will share a common ground.

AB - A simple and systematic synthesis procedure, based on a state-variable approach and the reactance extraction principle is presented. Any g multiplied by p matrix T(s) of real rational function of the complex frequency variable s can be realized as the short-circuit transfer admittance matrix of a multiport active RC network. The realization requires a minimum number of n-capacitors with unity capacitance spread, n, equal to the degree of T(s) and at the most (p plus 2n) inverting grounded voltage amplifiers. All the capacitors and ports will share a common ground.

UR - http://www.scopus.com/inward/record.url?scp=0017207862&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0017207862&partnerID=8YFLogxK

M3 - Chapter

AN - SCOPUS:0017207862

SP - 569

EP - 577

BT - Unknown Host Publication Title

ER -