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Panagiotis Soutzis
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Hello, i need help to design a simple charger of output 5V / 1A . Just to represent the charging in simulink. Anyone for help ?
Hello !jedishrfu said:Why not search via google for “circuit diagram for 5v charger”
Yes I have checked everywhere but I didn’t manage to find one similar to my case.. is there a chance you could help me ? I have been succesfull at simulating the AC voltage through a transformer to get it down to 9V or 5V and then connecting a bridge diode to change from AC to DC, but from there I don’t know how to continue.jedishrfu said:Okay have you rchecked what's on mathworks website? They have a lot of tutorials there.
A 5V/1A charger is a type of charger that provides a constant output voltage of 5 volts and a maximum output current of 1 ampere. This type of charger is commonly used for charging small electronic devices such as smartphones, tablets, and portable music players.
Simulink is a simulation software widely used in the field of engineering and science. It allows users to model and simulate complex systems, making it an ideal tool for designing and testing a 5V/1A charger. Simulink offers a user-friendly interface and a variety of built-in components that can be easily configured for designing a charger.
The key components required to design a 5V/1A charger in Simulink include a power source, a transformer, a rectifier, a smoothing capacitor, a voltage regulator, and a load. These components work together to convert the input voltage from the power source to a stable 5V output with a maximum current of 1A.
Yes, Simulink can simulate the designed charger and predict its performance. By inputting different parameters and running simulations, the user can analyze the behavior of the charger under various conditions and make necessary adjustments to improve its performance.
One limitation of designing a 5V/1A charger in Simulink is that it cannot account for real-world factors such as component tolerances and temperature variations. Therefore, it is important to verify the performance of the designed charger through physical testing once it has been constructed.