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Nth-order allpass voltage transfer function synthesis using CCII+s: Signal-flow graph approach

Nth-order allpass voltage transfer function synthesis using CCII+s: Signal-flow graph approach

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A general synthesis method is given for the realisation of an nth-order allpass voltage transfer function by the active RC circuit containing a minimum number of capacitors and at most n+1 current conveyors. All the current conveyors are positive, and n of them act as voltage followers. This makes the proposed circuit simple and attractive.

Inspec keywords: linear network synthesis; signal flow graphs; active filters; transfer functions; current conveyors; RC circuits; all-pass filters

Other keywords: general synthesis method; nth-order allpass voltage transfer; CCII+s; voltage followers; current conveyors; signal-flow graph approach; allpass voltage transfer function synthesis; active RC circuit

Subjects: Combinatorial mathematics; Active filters and other active networks; Linear network analysis and design

References

    1. 1)
      • C. Acar . New active-RC-network realisation for nth-order transfer functions:Signal-flow graph approach. IEE Proc. , 557 - 559
    2. 2)
      • J.A. Svoboda . Transfer function synthesis using current conveyors. Int. J. Electron. , 611 - 614
    3. 3)
      • E.O. Guneş , F. Anday . Realisation of nth-order voltage transfer function using CCII+. Electron. Lett. , 1022 - 1023
    4. 4)
      • B. Wilson . Recent developments in current conveyors and current-mode circuits. IEE Proc. G, Circuits Devices Syst. , 63 - 77
    5. 5)
      • E.O. Guneş , F. Anday . Realisation of nth-order transfer functions usingcurrent conveyors. Int. J. Circuit Theory Appl. , 693 - 696
    6. 6)
      • S.K. Mitra , A.J. Damonte , N. Fujii , Y. Neuvo . Tunable activecrossover networks. J. Audio Eng. Soc. , 762 - 768
    7. 7)
      • C. Acar . New transformations in signal-flow graphs. Electron. Lett. , 27 - 28
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