Since memcapacitor and meminductor elements have not been produced yet, emulator circuits are used to examine their application areas. In this paper, a new FDCCII-based grounded memcapacitor emulator circuit is presented. The proposed circuit consists of one FDCCII, one multiplier, three capacitors and two MOSFETs. These two MOSFETs are utilized as electronic resistors in the circuit. The variable part of memconductance can be adjusted electronically and the proposed memcapacitor possesses an incremental-decremental adjustable structure. Moreover, it contains fewer active elements than many memcapacitor emulator studies in the literature. The proposed circuit was designed in LTspice, and frequency response, temperature, and Monte Carlo analyses were performed. In addition, the electronic resistor has been simulated at various values, demonstrating that the circuit is electronically adjustable. The simulation results are consistent with the mathematical results presented in the article.
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