Yazar "Bal, Gungor" seçeneğine göre listele

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    An Application of PDM Technique for MPPT in Solar Powered Wireless Power Transfer Systems
    (Ieee, 2021) Bal, Gungor; Oncu, Selim; Ozturk, Nihat; Unal, Kenan
    In this study, a solar powered wireless power transmission system is simulated with MATLAB/Simulink. Wireless power transmission systems are the process of transferring electrical energy from the transmitting system to the receiving system without any physical connection. Pulse density modulation technique is used to generate control pulses for Maximum Power Point Tracking for wireless power transmission system. While the drive system is operated under soft switching conditions, it is able to follow the maximum power point in photovoltaic panels with high accuracy.
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    DESIGN AND IMPLEMENTATION OF A SELF OSCILLATING INDUCTION HEATER
    (Gazi Univ, Fac Engineering Architecture, 2011) Bal, Gungor; Oncu, Selim; Borekci, Selim
    Self oscillating circuits do not require more complicated control circuit. So they can provide low cost power control with very simple control circuit. Because of these advantages the self oscillating circuit topology is widely used in some power electronics applications such as inverters and electronic ballasts. In this study, an application of self oscillating control technique was achieved on an induction heater driven by D-class inverter. Transistors used as power switches are triggered in order by the feedback signal which follows load current. For the developed self oscillating induction heating system, results obtained from simulations and experiments are compared and then presented.
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    Design of Hybrid Controller for Automatic Voltage Regulator
    (Gazi Univ, 2023) Bal, Gungor; Ozturk, Nihat; Oncu, Selim; Unal, Kenan
    Synchronous generators are still the main machines in the production of electrical energy. Changing the excitation current and the rotation speed easily adjust their output voltage and frequency. Since synchronous generators are operated with the grid, the output voltage and frequency must be fixed. Various control systems are used in Automatic Voltage Regulators for adjusting the voltage. In this study, a hybrid controller structure proposed and it operates in MATLAB / Simulink program. The simulation results of the proposed AVR is compared with PID adjusted by Artificial Bee Colonies algorithm and Ziegler-Nichols based different controllers. The comparison was made on maximum overshoot, rise and settling time. According to the comparison made, it was seen that the proposed hybrid controller has better response than the other controllers in terms of maximum overshoot, rise and settling time.
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    Determination of Circuit Parameters in Domestic Induction Heaters by Analytical Solution Method
    (Taylor & Francis Inc, 2024) Unal, Kenan; Oncu, Selim; Tuncer, Ugur; Bal, Gungor
    Domestic induction heaters provide efficient, fast, and safe heating. Variable circuit parameters in domestic induction heaters show different characteristics depending on the type of parts used for heating and the area they cover on the heating coil. For this reason, resonant frequency, maximum inverter current, and quality factor parameters of the induction heaters also change. In this study, the tests of the domestic induction heater circuit with series resonant inverter were carried out with various of workpieces diameters. The resonant frequency and maximum inverter current parameters obtained from the experimental studies, curve fitting process was performed in the MATLAB and a function on related with heater parameters was derived. By using the obtained functions, the resonant frequency and maximum inverter current of the materials in the workpieces with intermediate diameters were calculated with high accuracy and compared experimentally. Analytical calculations and experimental results confirmed each other with an accuracy and it was shown that induction heater circuit parameters could also be calculated by analytical solution method.
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    Effects of a current transformer's magnetizing current on the driving voltage in self-oscillating converters
    (Tubitak Scientific & Technological Research Council Turkey, 2014) Bal, Gungor; Oncu, Selim
    Magnetizing inductance is one of the parameters that affect the phase and amplitude error of the output current of current transformers (CTs). In this study, the linear circuit model of a CT is developed to be used for driving purposes in power electronics applications. A simulation of the CT and its linear model is achieved. In the model circuit, the effect of the magnetizing inductance on the driving voltage can be examined. The equivalent circuit simulation results and the linear model simulation results along with the calculated results show agreement with each other. These results are compared with experimental results.
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    Implementation of the irregular pulse density modulation-controlled wireless power transfer system for constant current and constant voltage output
    (Wiley, 2024) Unal, Kenan; Bal, Gungor; Oncu, Selim
    In this paper, irregular 32 pulse density modulation (PDM)-controlled wireless power transfer (WPT) system is proposed for constant current (CC) and constant voltage (CV) outputs. The proposed WPT system has a load independent ZPA frequency characteristic with CC and CV outputs. Thus, soft switching conditions are achieved for both CC and CV outputs. An experimental prototype was prepared to validate the effectiveness of the proposed irregular 32 PDM-controlled WPT system. WPT coil design parameters are presented and analyzed with lateral and rotational misalignment conditions in ANSYS. The experiments were determined as 3 A for CC output and 200 V for CV output. The maximum efficiency of the proposed system is measured (95.34%) at aligned coils with 100 mm air gap. In addition, the efficiency results are presented and evaluated by performing experimental studies under both lateral and rotational misalignment conditions. In this paper, irregular pulse density modulation-ontrolled wireless power transfer system which can control 32 steps of power is proposed. The output power is controlled precisely, and the soft switching conditions are provided. The experimental results are presented for misalignment conditions.image
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    Irregular 64 PDM Controlled Wireless Power Transfer for Pecise Power Control
    (Ieee, 2023) Unal, Kenan; Bal, Gungor; Oncu, Selim
    The power control techniques used in wireless charging systems can be divided into two classes: variable frequency and fixed frequency. In variable frequency power control, the efficiency of the charging system decreases when it is operated outside the zero-phase angle (ZPA). The efficiency of the wireless charging system increases when fixed frequency charging systems are operated even at ZPA frequency and under soft switching conditions. In this paper, an irregular 64-PDM controlled wireless charging system is proposed. The proposed 64-PDM controlled wireless charging system is implemented in a class-D inverter in a MATLAB/Simulink environment and the results are presented. As a result of the simulations, the efficiency of the wireless charging system operating under soft switching conditions at ZPA frequency is presented.
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    MPPT Design for PV-Powered WPT System with Irregular Pulse Density Modulation
    (Taylor & Francis Inc, 2023) Unal, Kenan; Bal, Gungor; Oncu, Selim; Ozturk, Nihat
    Electric vehicles (EVs) are well-known as environmentally friendly systems. Therefore, the demand for EVs is rapidly increasing every day, but for charging batteries of EVs eco-friendly electrical energy sources are needed. To use a clean energy source, this article proposes a wireless power transfer (WPT) system energized by photovoltaic panels. In this study, pulse density modulation technique controlled with incremental conductance algorithm is preferred in the WPT system for both transferring power from primary to secondary windings and for tracking maximum power point (MPP). The proposed system was tested with an experimental prototype and the results were presented. As a result, both 99.22% MPPT efficiency was obtained and power was transferred from primary to secondary with 90% efficiency.
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    Pulse Density Modulation Controlled WPT Charger for LEVs
    (Ieee, 2022) Bal, Gungor; Unal, Kenan; Oncu, Selim; Ozturk, Nihat
    Light Electric Vehicles (LEV) are increasingly used today to provide mobility in crowded cities. The charging process of LEVs has been one of the issues that should be paid attention to. For this purpose, LEVs owned or rented by users need to be charged quickly and reliably. By using Wireless Power Transfer (WPT), this needed quick and reliable charging can be achieved for LEVs. In this paper, Pulse Density Modulation (PDM) is used for charging in Constant Voltage (CV) mode during wireless charging of LEVs with WPT. The simulation study required for CV charging was carried out with MATLAB/Simulink. A WPT system has been proposed that produces a constant output voltage in response to changing equivalent load resistance in CV charging mode.