The second approach will model the circuit based on experimentally obtained frequency responseĭata and can be found in Part (b) of the activity.īelow is given a simplified version of a boost converter consisting of a DC voltage source, an inductor, a switch, a diode, and a load. The first approach will model the circuitīased on its underlying physics and will compare the predicted time response of the circuit to data taken from a physical The activity alsoĭemonstrates two techniques for modeling and analyzing a simple electrical system. The purpose of this activity is to build intuition regarding the operation of a boost converter circuit. The Arduino board will also communicate the recorded data to Simulink for visualization and analysis. Of the circuit via one of the board's Analog Inputs and for controlling the level of the output voltage via one of the board's Digital Outputs. The Arduino board will be used for measuring the output We will implement a couple of very simple (not optimized) versions of aīoost converter in order to illustrate its principle of operation. a battery) and outputĪn (approximately) constant higher output voltage. The purpose of a boost converter is to take the voltage supplied by a constant voltage source (e.g. The system we will be employing in this activity is a type of DC/DC converter called a Boost (Step-Up) Converter. Electronic components (inductor, resistor, capacitor).
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May 2023
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