Reconnection–less Reconfigurable Fractional–Order Current–Mode Integrator Design With Simple Control | IEEE Journals & Magazine | IEEE Xplore

Reconnection–less Reconfigurable Fractional–Order Current–Mode Integrator Design With Simple Control


Proposed fractional-order integrator and its magnitude and phase responses in case of simulations and experimental measurements.

Abstract:

A design of a fractional-order (FO) integrator is introduced for the operation of the resulting solution in the current mode (CM). The solution of the integrator is based...Show More

Abstract:

A design of a fractional-order (FO) integrator is introduced for the operation of the resulting solution in the current mode (CM). The solution of the integrator is based on the utilization of RC structures, but in comparison to other RC structure based FO designs, the proposed integrator offers the electronic control of the order. Moreover, the control of the proposed integrator does not require multiple specific and accurate values of the control voltages/currents in comparison to the topologies based on the approximation of the FO Laplacian operator. The electronic control of a gain level (gain adjustment) of the proposed integrator is available. The paper offers the results of Cadence IC6 (spectre) simulations and more importantly experimental measurements to support the presented design. The proposed integrator can be used to build various FO circuits as demonstrated by the utilization of the integrator into a structure of a frequency filter in order to provide FO characteristics.
Proposed fractional-order integrator and its magnitude and phase responses in case of simulations and experimental measurements.
Published in: IEEE Access ( Volume: 9)
Page(s): 136395 - 136405
Date of Publication: 01 October 2021
Electronic ISSN: 2169-3536

Funding Agency:


References

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