noticias
Building a 120 Volt AC Power Supply for 3 Volts DC
Autor: Módulo de potencia ZYG Time: 2023-4-21
In this guide, we will be building a 120-volt AC power supply that can provide 3 volts DC output. This power supply will be useful for a variety of electronic projects that require a low voltage DC power source.
To begin, we will need the following materials:
– Transformer: A transformer is a device that converts high voltage AC power to low voltage AC power. In this case, we will need a transformer that can convert 120V AC to 6V AC.
– Bridge rectifier: A bridge rectifier is a circuit that converts AC power to DC power. We will be using a bridge rectifier that can handle at least 1 ampere of current.
– Capacitor: A capacitor is an electronic component that stores electrical energy. We will need a 1000uF capacitor rated for at least 16V.
– Voltage regulator: A voltage regulator is a circuit that maintains a constant output voltage. We will be using a LM317 voltage regulator that can provide a variable output voltage between 1.2V and 37V.
– Heat sink: A heat sink is a device that dissipates heat from electronic components. We will need a heat sink for the LM317 voltage regulator.
– Resistor: We will need a 240 ohm resistor to set the output voltage of the LM317 voltage regulator.
– Miscellaneous: We will also need a breadboard, wires, and a power cord.
Once we have all the required materials, we can start building our power supply. Here are the steps:
1. First, we will connect the transformer to the bridge rectifier. Connect the 6V AC output from the transformer to the AC input of the bridge rectifier. The DC output of the bridge rectifier should be connected to the positive terminal of the capacitor.
2. Next, we will connect the voltage regulator to the capacitor. Connect the positive terminal of the capacitor to the input of the LM317 voltage regulator. The output of the LM317 voltage regulator should be connected to the positive rail of the breadboard.
3. Now, we will set the output voltage of the LM317 voltage regulator. To do this, we will connect a 240 ohm resistor between the output and the adjust pins of the LM317 voltage regulator. The adjust pin should also be connected to the negative rail of the breadboard.
4. Finally, we will add a heat sink to the LM317 voltage regulator to dissipate heat. Mount the heat sink on the LM317 voltage regulator and connect it to the ground rail of the breadboard.
5. Connect the power cord to the transformer and plug it into the wall outlet. The output voltage of the power supply should be set to 3V DC.
Congratulations! You have successfully built a 120V AC power supply that can provide 3V DC output. This power supply can be used in a variety of electronic projects that require a low voltage DC power source. Remember to take caution when working with high voltage AC power, and to always follow proper safety procedures.
Anterior: AC-DC Power Supply: A Reliable Source of Electrical Power
Próximo: AC-DC Power Supply: Providing Efficient and Reliable Energy Conversion
informacion relevante
-
2023-4-23
Construcción de una fuente de alimentación de CA de 120 voltios para una salida de CC de 3 voltios
Introducción Cuando se trata de dispositivos electrónicos, la fuente de alimentación es un componente esencial que asegura que el dispositivo reciba la energía necesaria para funcionar correctamente. En este artículo, discutiremos cómo construir una fuente de alimentación de CA de 120 voltios que proporcione una salida de CC de 3 voltios. Diseño de la fuente de alimentación Antes de comenzar a construir la fuente de alimentación, primero debemos diseñarla. La fuente de alimentación consta de dos etapas principales: la conversión de CA a CC y la regulación de voltaje. Conversión de CA a CC Para convertir la alimentación de CA en alimentación de CC, utilizaremos un puente rectificador. Un puente rectificador es un circuito que convierte la energía de CA en energía de CC pulsante. El circuito consta de cuatro diodos dispuestos en una configuración de puente, por lo tanto...
Ver detalles -
2023-7-6
Exploring the Medical Power Series: Unlocking the Secrets of Healthcare Excellence
In today's rapidly evolving world, healthcare remains a crucial aspect of our lives. With the advancement of technology and the growing need for comprehensive medical services, it is imperative for healthcare professionals to stay updated with the latest knowledge and skills. One resource that has gained significant recognition in this regard is the Medical Power Series. The Medical Power Series is a comprehensive collection of books, seminars, and online resources that aim to unlock the secrets of healthcare excellence. Developed by industry experts, this series provides valuable insights and practical guidance to healthcare professionals, enabling them to deliver exceptional patient care. One of the key components of the Medical Power Series is the collection of books, each focusing on a...
Ver detalles -
2023-7-17
Why Choose AC DC Power Supply SF Series
The AC DC Power Supply SF Series is a cutting-edge technology that offers efficient and reliable power solutions for various industrial applications. With its advanced features and high performance, this power supply series has become a popular choice among professionals in the field. One of the key highlights of the AC DC Power Supply SF Series is its versatility. It can seamlessly switch between AC and DC power sources, providing flexibility and convenience for users. This means that it can be used in a wide range of applications, from telecommunications and data centers to industrial automation and renewable energy systems. Another notable feature of the SF Series is its high efficiency. It is designed to deliver maximum power output while...
Ver detalles -
2023-5-22
Efficient 12V AC to DC Converter for LED Lights
LED lighting has revolutionized the way we light our homes and workplaces. LED lights are energy-efficient, long-lasting, and eco-friendly. They consume less energy, emit less heat, and have a longer lifespan than traditional incandescent bulbs. However, to use LED lights, you need a power source that supplies direct current (DC), while most homes and businesses have alternating current (AC) power supplies. This is where a 12V AC to DC converter comes in handy. A 12V AC to DC converter or power supply is a device that converts Alternating Current (AC) to Direct Current (DC) voltage. The converter is essential for powering electronic devices that require DC power, such as LED lights. The most efficient 12V AC to DC converter is...
Ver detalles -
2023-11-17
Efficient and Versatile: Experience the Power of a 850 Watt Modular Power Supply
Efficiency and versatility are two key factors to consider when choosing a power supply for your computer. The 850-watt modular power supply is a perfect example of a high-quality and efficient solution that can meet the demands of even the most power-hungry systems. With an 850-watt power rating, this modular power supply is capable of delivering ample power to support a wide range of computer components. Whether you are a hardcore gamer, a graphic designer, or a video editor, this power supply can handle the most demanding tasks without breaking a sweat. One of the standout features of this power supply is its modularity. Unlike traditional power supplies, which come with a fixed number of cables that can clutter your...
Ver detalles -
2023-9-26
Highly Efficient and Reliable 750W Modular Power Supply for Enhanced Performance
Introduction A reliable and efficient power supply is essential for the seamless operation of electronic devices. One such power supply that stands out from the rest is the Highly Efficient and Reliable 750W Modular Power Supply. This power supply is designed to enhance performance and ensure a stable and consistent power supply to your system. With its modular design and high efficiency, it is a perfect choice for gamers, PC enthusiasts, and professionals who demand nothing less than the best. Efficiency and Performance The Highly Efficient and Reliable 750W Modular Power Supply boasts an impressive efficiency of up to 90%, which means that it converts up to 90% of the input power into usable output power. This level of efficiency...
Ver detalles