Ali KIRÇAY scite author profile

Bu çalışmada, iki adet ikinci nesil akım kontrollü akım taşıyıcı (CCCII) kullanılarak kesirli dereceli akım modlu alçak geçiren ve yüksek geçiren basamak süzgeç tasarımı yapıldı. Bu tasarım için iki adet CCCII, dört adet direnç, bir adet topraklanmış kapasitör kullanıldı. Sunulan basamak süzgeç devresinin kesir derecesi için 𝛼 = 0.7, 0.8 ve 0.9 olarak belirlendi. Tasarlanan kesirli-dereceli basamak süzgeç devresi için kesirli dereceli kapasitör elemanı kullanıldı. Kesirli kapasitörü Foster-I 𝑅C devresi ile elde edildi. Akım kontrollü akım taşıyıcısının (CCCII) iç yapısı için Bipolar Junction Transistors (BJT) kullanıldı. Tasarlanan süzgeç devreleri PSpice programı kullanılarak, kesim frekansı 10kHz olarak benzetimleri yapıldı. Tasarlanan devrelerin teorik sonuçları benzetim sonuçları ile doğrulandı. Bu benzetim sonuçlarından, gerçekleştirilen süzgeçlerin akustik bant uygulamaları için uygun olduğu görüldü.

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Implementation of Filter Structures in VLF Band for Remote Sensing Systems Using MCFOA

Sen

KIRÇAY

COBB

2022

Preprint

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Different analogue filter circuits were designed containing a current-mode first-order and a minimum number of grounded passive elements. These circuits are designed to be used in the very low frequency (VLF − 3 kHz and 30 kHz) band, which is employed in remote sensing systems. They are designed with the help of an active element, called the modified current feedback operational amplifier (MCFOA). For this, first, currentmode first-order low-pass, high-pass and all-pass filter circuits are designed. Second, a current-mode first-order single input and three-output universal filters are designed to provide simultaneous low-pass, high-pass and all-pass filter outputs. These filter structures contained only four grounded passive components and one MCFOA. The cut-off frequencies of the filters are measured at 10 kHz. It has been observed that the filter structures can be used in the VLF band, as can be understood from the cut-off frequency. Furthermore, the frequency and gain of the filters can be adjusted electronically, by changing the values of the parameters in these filter circuits. The total harmonic distortion (THD; (%)) of these generated circuits is THD (%) ≤ 1. Moreover, the presented filter circuits provided wide dynamic range (DR > 60 dB). In addition, the total power loss of these filters is less than 1 mW for 2.5 V single-supply. Accuracies of these structures were verified using the PSpice program.

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Ali KIRÇAY

Current-mode fractional-order shelving filters using MCFOA for acoustic applications

CCCII Kullanarak Akım Modlu Kesirli Dereceli Basamak Süzgeç Tasarımı

Implementation of Filter Structures in VLF Band for Remote Sensing Systems Using MCFOA

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