Abstract
Abstract: In order to power today's most advanced electronic devices efficiently and quickly produce extremely useful devices through software interfacing, new techniques must be developed as the size, utility, and complexity of these devices rise. In order to step-up DC voltages, the boost converter that is the focus of this paper will be modelled. The pulse width modulation pulses that are applied to power switches are produced by the Arduino. The software runs on the microcontroller and includes a boot loader for common programming languages. C is the programming language used. As a result, creating PWM triggering signals is less complicated. Instead of using traditional methods, an efficient feedback system is used, depending on the application, to obtain the desired DC voltages. Even though using a linear regulator is the simplest way to control the DC supply voltage, they are less efficient in terms of power consumption and have fewer uses. With the right feedback, Arduino-based DC converters have a high efficiency (95%) rate
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