Sensors (Dec 2013)

Fractional Modeling of the AC Large-Signal Frequency Response in Magnetoresistive Current Sensors

  • Sergio Iván Ravelo Arias,
  • Diego Ramírez Muñoz,
  • Jaime Sánchez Moreno,
  • Susana Cardoso,
  • Ricardo Ferreira,
  • Paulo Jorge Peixeiro de Freitas

DOI
https://doi.org/10.3390/s131217516
Journal volume & issue
Vol. 13, no. 12
pp. 17516 – 17533

Abstract

Read online

Fractional calculus is considered when derivatives and integrals of non-integer order are applied over a specific function. In the electrical and electronic domain, the transfer function dependence of a fractional filter not only by the filter order n, but additionally, of the fractional order α is an example of a great number of systems where its input-output behavior could be more exactly modeled by a fractional behavior. Following this aim, the present work shows the experimental ac large-signal frequency response of a family of electrical current sensors based in different spintronic conduction mechanisms. Using an ac characterization set-up the sensor transimpedance function is obtained considering it as the relationship between sensor output voltage and input sensing current,[PLEASE CHECK FORMULA IN THE PDF]. The study has been extended to various magnetoresistance sensors based in different technologies like anisotropic magnetoresistance (AMR), giant magnetoresistance (GMR), spin-valve (GMR-SV) and tunnel magnetoresistance (TMR). The resulting modeling shows two predominant behaviors, the low-pass and the inverse low-pass with fractional index different from the classical integer response. The TMR technology with internal magnetization offers the best dynamic and sensitivity properties opening the way to develop actual industrial applications.

Keywords