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Six new delay functions and their realization using active rc networks

Six new delay functions and their realization using active rc networks

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© The Institution of Electronic and Radio Engineers
Published

Six new delay functions with three right-half s-plane zeros and four lefthalf s-plane poles are obtained from the application of Budak's technique to the Bessel and Chebyshev all-pole delay functions. These are compared with three well-known similar delay functions and three of them found to have some advantages over the existing ones. Active networks, which areuseful in the realization of the functions, are examined and experimental responses are given.

Inspec keywords: delay circuits; active networks

Subjects: Lumped linear networks; Filters and other networks

References

    1. 1)
      • C.D. Morill . A sub-audio time delay circuit. Trans. Inst. Radio Engrs on Electronic Computers , 2
    2. 2)
      • King, W.J., Rideout, W.C.: `Improved transport delay circuits for analogue computer use', Proc. of the Third International Meeting of the Association pour le Calcul Analogique, 5 September 1961, Opatija, Yugoslavia.
    3. 3)
      • A.B. Macnee . Chebyshev approximation of a constant group delay. Trans. I.E.E.E. on Circuit Theory , 2 , 284 - 285
    4. 4)
      • T. Deliyannis , N. Ream . An RC-active synthesis of a bi-quartic function with complex poles. Internatl J. Electronics , 5 , 413 - 415
    5. 5)
      • A. Budak . A maximally flat phase and controllable magnitude approximation. Trans. I.E.E.E. on Circuit Theory , 2
    6. 6)
      • T. Deliyannis . RC active allpass sections. Electronics Letters , 3 , 59 - 60
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