37 research outputs found

    Voltage tracking of a multi-input interleaved buck-boost dc-dc converter using artificial neural network control

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    This paper proposes an artificial neural network (ANN) voltage tracking of multi-input interleaved buck-boost DC-DC converter. A back-propagation algorithm topology is implemented in this paper. The control unit is implemented to ameliorate the performance of the proposed multi-input converter during transient dynamic response and steady-state operation mode. The neural network controller unit design, which is adaptive against output voltage command tracking and reference voltage variations is proposed. The proposed design has been verified through the MATLAB software. The simulation outcomes emphasized the validity and reliability of the proposed neural network technique, which would be a promising an efficient control method that ensures multi-input converter suitable for electric vehicle and renewable energy application systems

    A COMPARATIVE STUDY OF CONVENTIONAL PID AND FUZZY-PID FOR DC MOTOR SPEED CONTROL

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    The development of a Self Tuning Fuzzy proportional done to be compared with the conventional controller that (DC) motor. A simulation study is used to overcome the appearance of nonlinearities and uncertainties in the system with the proposed controller for the armature voltage controlled DC motors. Each parameter of the Fuzzy the fuzzy logic controller. The proportional, integral and derivative (KP,KI,KD) PID controller is being tuned by the controller. Different types of membership functions are evaluated in the fuzzy control and the best performance will be used in Fuzzy comparative analysis with the conventional PID. The FIS editor from MATLAB defines the membership function and the rules. Load disturbances from a variety of speed response and the step response are simulated from different scenarios

    Space Vector Pulse Width Modulation (SVPWM) for Harmonic Reduction Three Phase Inverter System

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    This paper presents a simulation and design for reducing harmonics in three-phase inverters using space vector pulse width modulation(SVPWM). Converting Direct Current (DC) to Alternating Current (AC) gives distortion or noise which can be at the source or at theoutput .Problems arise in inverters and other power electronics devices when total harmonic distortion (THD) is high during operation. This noise or distortion can lead to problems for the equipment that being supplied especially in shortening the lifespan of theequipment. The model was simulated using MATLAB/ Simulink with the block set and also M-file. Metal-Oxide-Semiconductor-Field- Effect-Transistor (MOSFET) was used as switches. The SVPWM is used as the control algorithm/system to control the switching schemeof the MOSFETs. The SVPWM as a type of Pulse Width Modulation (PWM) succeeded in reducing the harmonics up to 0.26%. Experiments on a 2-level inverter in the laboratory using DSP microcontrollers contribute to validation of the proposed strateg

    A footstep and piezoelectric sensor-based power generation system

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    In this paper, the energy harvesting capacity of piezoelectric material is applied a footstep energy generation system. Conventional fossil fuels have raised concern about sustenance of the environment. As a means of reducing dependence on fossils fuels, the piezoelectric sensor is touted as a viable replacement. Piezoelectric materials are used to generate alternating current (AC) and direct current (DC) for powering communication devices, lightings and battery charging. 500 modified piezoelectric tiles were assembled to generate required power was then routed to an electronic processing unit containing a microcontroller, voltage rectifier and regulator circuitry. The output can deliver power to a phone, light bulb and battery. Using footsteps, the designed system delivered a maximum power of 4.25 W with full load current of 2.08 A. The 12V 10 Ah battery charging time is 31.25 hours and the full load battery life is 4.81 hours. The designed system was verified via simulation and experimentally. This system can be useful during when grid electricity is disrupted

    Design of Completion Detectors in Asynchronous Communication System

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    In digital design, there are two types of design, synchronous design and asynchronous design. In synchronous design, global clock is one of the main system that consume a lot of power. The power in synchronous design is consumed by clock even if there is no data processing take place. The asynchronous design that depends on data is clockless and as far as the power is concerned, asynchronous design does not consume much power compared with synchronous design and this really make asynchronus design the preffered choice for low power consumption. Besides having low power consumption, there are many advantages of aynchronous design compared with synchronous design. This paper proposed new dual rail completion detector (CD), 3-6 CD, 2-7 CD and 1-4 CD for on-chip communication that are used widely in an asynchronous communication system. The design of CD is based on the principle of sum adder. The circuit is designed by using Altera Quartus II CAD tools, synthesis and implementation process is executed to check the syntax error of the design. The design proved to be successful by using asynchronous on-chip communication in the simulatio

    A battery integrated multiple input DC-DC boost converter

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    In this paper, the proposed single boost converter aims to harness more than one renewable energy (RE) input source and achieve a high voltage gain. The interleaved technique combined with voltage multiplier (VM) cells, reduced inductor current and attained high voltage transfer ratio. The boost converter possesses two unidirectional input ports and a bidirectional input port that is connected to a battery storage. The duty ratios of the power and interleaving switches are used to regulate the output voltage of the proposed converter. Three operation modes are identified, and steady state analyses of the converter are presented and discussed. The converter can store excess energy in the battery during periods of abundance and deliver power to the loads when the RE sources are low or unavailable. In addition, the output voltage is higher than that of the conventional boost converter. The converter delivered 278 V from 12 V and 24 V dual input sources. The converter operation is simulated and verified using MATLAB/Simulink

    Power sharing analysis of a new modified multi-input interleaved boost converter based on H-Bridge cells

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    In this paper, a new modified multi-input boost converter is proposed using H-bridge cells as building blocks and uncoupled inductors in parallel using interleaved technique as ripple reduction method. The objectives of this paper are to design a high ripple reduction and a high-performance multi-input boost converter. Different operating modes and the switch realization of the new converter are obtained. The modes of operation based on the status of the four switches. The proposed multi-input boost converter is composed of two inputs source that accommodated with some extra semiconductors, inductances and diodes to form the interleaving technique as proposed method. The proposed concept has been investigated through simulation using the MATLAB/Simulink environment. The simulation results confirm the validity of the proposed method, which can be seen as a promising new topology that ensure multi-input converter suitable for renewable energy application

    A battery integrated multiple input DC-DC boost converter

    No full text
    In this paper, the proposed single boost converter aims to harness more than one renewable energy (RE) input source and achieve a high voltage gain. The interleaved technique combined with voltage multiplier (VM) cells, reduced inductor current and attained high voltage transfer ratio. The boost converter possesses two unidirectional input ports and a bidirectional input port that is connected to a battery storage. The duty ratios of the power and interleaving switches are used to regulate the output voltage of the proposed converter. Three operation modes are identified, and steady state analyses of the converter are presented and discussed. The converter can store excess energy in the battery during periods of abundance and deliver power to the loads when the RE sources are low or unavailable. In addition, the output voltage is higher than that of the conventional boost converter. The converter delivered 278 V from 12 V and 24 V dual input sources. The converter operation is simulated and verified using MATLAB/Simulink

    Integrated PV–BESS-Fed High Gain Converter for an LED Lighting System in a Commercial Building

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    The demand for electricity is rapidly growing and renewable energy sources such as solar, wind and tidal energy can compensate the demand to a substantial level. Among these, solar energy is abundant, scalable and is cheaper. The generated energy can be used in an efficient way if the DC output is directly supplied to the load instead of converting it to AC. Every electrical system is capable of operating in DC and, for example, energy efficient Light Emitting Diode (LED) lights have become popular as they provides more lumens with less power consumption and also can be directly operated from DC. LED lighting system in large commercial buildings has irradiance levels which vary sigificantly during operation. Extracting maximum power from the energy system and maintaining constant voltage output at different loads is another challenge. This paper proposes a solar Photo Voltaic (PV)-based energy system including Battery Energy Storage System (BESS) for supplying LED lamps to a commercial building through a modified high gain Luo converter. The Perturb and Observe control algorithm has been used for maximum power extraction from a PV cell whereas PI (Proportional Integral) controllers maintain constant output voltage from PV–BESS against different irradiance levels. To supply the desired voltages to the LED lighting system, a modified high gain Luo converter is designed. To make the output voltage constant at different load currents, PI and Sliding Mode Controllers (SMC) are designed with the help of the state-space average model. It is found that the sliding mode controller outperforms the PI controller in terms of behavior in the transient period and tracking capability. The system is simulated using MATLAB/Simulink®. The Sliding Mode Controller has a 95% less transient period and is 75% faster in tracking capability when compared to other controllers. The system could be incorporated with the PV source to obtain green energy
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