Power supply circuits are the backbone of all electronic projects, providing the necessary electrical energy to power various devices and systems. Most electronic components require direct current (DC), while the electricity from the mains is in alternating current (AC) form. To bridge this gap, a power supply circuit converts high-voltage AC into a stable, low-voltage DC supply.
In this blog, we’ll guide you through the essential steps of building a basic power supply circuit, including AC to DC conversion, voltage regulation, and filtering. Whether you’re a beginner or an electronics enthusiast, understanding these fundamentals will help you create a reliable power source for your projects.
Circuits for power supplies are crucial parts of any electronic project. They supply the electricity required to run different electronic systems and gadgets. In order to power low voltage electronics, we’ll walk you through the process of creating a basic power supply circuit that transforms alternating current (AC) into direct current (DC).
An electrical device that supplies electrical energy to an electronic circuit is called a power supply. The power supply transforms the mains AC voltage (such as 120V or 230V) into a steady DC voltage (such as 5V or 12V) in the majority of embedded systems and electronic projects. Since most electronics need DC voltage to operate properly, this is especially helpful.
Building a simple power supply entails the following steps:
Converting alternating current (AC) to direct current (DC) is known as AC to DC conversion. Voltage regulation: Ensuring the output voltage remains stable, regardless of input variations. Filtering is the process of reducing any DC output ripples.
You will need the following essential parts to construct a basic power supply circuit:
The high AC voltage from the mains is stepped down to a lower AC voltage using a transformer. The primary winding, which is connected to the AC mains, and the secondary winding, which produces the lower AC voltage, are the two sides of the transformer. A 230V AC to 12V AC transformer, for instance, will reduce 230V from the mains to 12V.
This device transforms AC into pulsating DC. It transforms both sides of the AC signal into positive current using a bridge arrangement of four diodes. Although it is an essential step in the conversion of AC to DC, the output is not pure DC because it contains ripples.
The amount of ripple that needs to be smoothed and the circuit’s current requirements determine the capacitor’s size.
This device makes sure that the output voltage stays constant even when the input voltage varies by stabilizing it.
For instance, even if the input voltage fluctuates (within a specific range), a 7805 voltage regulator will consistently produce a 5V output
3.1. Transformer Selection
Select a transformer that will provide the circuit’s intended output voltage. Since a diode rectifier usually produces a DC output of roughly the transformer’s secondary voltage less the diode voltage drops, you can use a 12V AC transformer, for instance, if you want a 5V DC output.
3.2. Constructing the Bridge Rectifier
To create the rectifier, connect four diodes in a bridge configuration. The cathodes of the other two diodes are connected to the positive output terminal, and the cathodes of the first two diodes are connected to the negative output terminal. The anode of the two diodes is connected to the AC input (from the transformer’s secondary).
Circuit Schematic:
4.1. Capacitor Sizing: When choosing a capacitor to smooth the output, make sure it has enough capacitance to do so efficiently.
4.2. Heat Dissipation
4.3. Selecting the Correct Transformer
Based on your circuit’s needs, pick a transformer with the right current rating. For instance, choose a transformer with a secondary voltage of 12V AC and a current rating of at least 1A if your circuit needs 5V at 1A.
Converting AC to DC, filtering the signal to eliminate ripples, and stabilizing the output voltage with a voltage regulator are all crucial steps in building a basic power supply circuit. A transformer, a diode bridge rectifier, a filter capacitor, and a voltage regulator are the fundamental parts needed. Numerous low-voltage DC devices, including microcontrollers, sensors, and other embedded systems, can be powered by this simple power supply. For your electronics projects, you can design a dependable and effective power supply by following the instructions in this document.