Sezai Tokat scite author profile

SUMMARYIn this paper, four different-type second-order current-mode filters, employing second-generation currentcontrolled conveyors (CCCIIs) and two capacitors, are proposed. The first two of the presented filters can simultaneously realize high-output impedance low-pass, band-pass and high-pass responses. Also, the two filters can provide notch and all-pass filter responses with interconnection of the relevant output currents. The first developed one needs no critical active and passive element matching conditions and/or cancellation constraints. The second and third introduced ones employ only grounded capacitors. The fourth proposed filter derived from the third one uses only plus-type single output CCCIIs (CCCII+s). The fifth filter can be constructed using commercially available active devices such as AD844s along with additional resistors instead of CCCII+s of the fourth proposed filter to perform experimental test easily. All of the proposed filters have low active and passive element sensitivities. Time and frequency domain analyses are performed for the first, second and third realized filters using SPICE simulation program. Also, experimental test is achieved for the fifth filter. In this study, stability problems attributed to non-ideal gains of the CCCIIs and signal limitations of the first, second and third introduced filters due to restricted power supply voltages are investigated.

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A Classification and Overview of Sliding Mode Controller Sliding Surface Design Methods

Tokat

Fadali

Eray

2015

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Sentiment Analysis of Turkish Twitter Data Using Polarity Lexicon and Artificial Intelligence

Shehu

Sharif

Uyaver

et al. 2020

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A new design method for sliding mode controllers using a linear time-varying sliding surface

Tokat

Eksin

Güzelkaya

2002

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Sliding mode controlled bioreactor using a time-varying sliding surface

Tokat

2009

Transactions of the Institute of Measurement and Control

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Bioreactor processes based on substrate concentration have both highly non-linear behaviour and parameter uncertainties mostly bounded with physical and biological constraints, which make them a subject area of sliding mode control. This work deals with sliding mode control of a fermentation process in a continuous stirred bioreactor. A new sliding surface is defined using angular information as a function of time that provides adjustable continuous movement of the sliding surface. Computer simulations are presented to show the effectiveness and efficiency of the proposed method and to make a quantitative comparison with the conventional sliding mode controller having a constant sliding surface. The excess amount of substrate concentration in the mixture causes undesired by-product information. Therefore, the substrate concentration should not stay above its desired value for a long time. It is shown in the simulations that the performance of the proposed method, especially in regard to the settling time of the substrate concentration and reaching time, is improved. It is also shown that different system state trajectories could be obtained with the proposed method by adjusting the defined parameters of the angular information.

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Sezai Tokat

Universal resistorless current‐mode filters employing CCCIIs

A Classification and Overview of Sliding Mode Controller Sliding Surface Design Methods

Sentiment Analysis of Turkish Twitter Data Using Polarity Lexicon and Artificial Intelligence

A new design method for sliding mode controllers using a linear time-varying sliding surface

Sliding mode controlled bioreactor using a time-varying sliding surface

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