This research paper contributes an equivalent electrical circuit model for fruit tissue utilizing an Extra X Current Conveyer EX-CCII which supports experimental collected impedance data of fruit tissue. An experimental result of bio-impedance of a fruit tissue in the range of 100 Hz to 1 MHz. The equivalent model has two resistors (R0 and R∞), fractional capacitor (Cα) and an EXCCII. The proposed design enables a cost-effective alternative to extract the data without the need of impedance analyzer to study the parameter of fruit. The impedance function of fruit tissue is validated through an EXCCII electrical circuit in PSPICE sample which follows similar nature as that of experimental bio-impedance value of fruit tissue.

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Fruit Tissue Electrical Modelling Employing Active Block EX-CCII

  • Kona Harshith Sai,
  • Vanam Naga Vivek Kumar,
  • Mudavath Sannath Naik,
  • Ashish Ranjan,
  • Vivek Bhatt

摘要

This research paper contributes an equivalent electrical circuit model for fruit tissue utilizing an Extra X Current Conveyer EX-CCII which supports experimental collected impedance data of fruit tissue. An experimental result of bio-impedance of a fruit tissue in the range of 100 Hz to 1 MHz. The equivalent model has two resistors (R0 and R∞), fractional capacitor (Cα) and an EXCCII. The proposed design enables a cost-effective alternative to extract the data without the need of impedance analyzer to study the parameter of fruit. The impedance function of fruit tissue is validated through an EXCCII electrical circuit in PSPICE sample which follows similar nature as that of experimental bio-impedance value of fruit tissue.