In this DIY electronics project, we will design and build a reliable 24V DC power supply using the T9AS5D12-24, a compact and efficient AC-DC converter module. This project will focus on converting standard 120V or 230V AC input voltage to a stable 24V DC output, ideal for powering various low- to mid-power electronics such as microcontrollers, sensors, or other small embedded systems that require 24V DC.
The T9AS5D12-24 is a power supply module that is widely used in industrial and hobbyist electronics for applications where a regulated 24V DC output is needed. The module features high efficiency, compact design, and ease of integration, making it an excellent choice for both beginners and seasoned electronic enthusiasts.
Before starting the project, you will need the following components:
● T9AS5D12-24 AC-DC Converter Module (Input 120V/230V AC to 24V DC output)
● AC Power Cord (with appropriate plug for your region)
● Fuse (For added protection)
● Switch (For turning the power supply on and off)
● Heat Sink (Optional, for thermal management)
● Enclosure Box (For housing the power supply)
● Wires (For making connections)
● Multimeter (For checking voltages and ensuring correct operation)
● Screwdrivers, Soldering Iron, and Solder (For assembly)
The T9AS5D12-24 is an AC-DC power conversion module designed to convert 120V or 230V AC into a stable 24V DC output. This module can supply up to 5A of current, meaning it can provide 120W of power. Its compact size and high efficiency make it ideal for applications where space is a concern and reliable DC power is needed.
Key features of the T9AS5D12-24 include:
● Wide Input Voltage Range: It accepts a wide range of input AC voltages (typically 90-264V AC), making it suitable for use in various geographical regions.
● Regulated 24V DC Output: The module ensures a stable 24V DC output, which is crucial for sensitive electronics.
● Built-in Protection: Overcurrent, overvoltage, and short-circuit protections are built in, making it safer to use.
● Efficient Heat Dissipation: While efficient, the module still generates heat under load, and additional cooling may be required in certain conditions.
● Compact Design: This small form factor module is easy to integrate into a variety of projects.
Before you begin wiring up the system, ensure that your workspace is safe and all necessary tools are on hand. This project involves working with mains voltage (AC), so be sure to take proper safety precautions.
● Disconnect Power: Ensure the power source is turned off before connecting anything.
● Work with Insulated Tools: Use insulated screwdrivers and pliers to avoid accidental shorts.
● Use a Fuse: Always include a fuse for overcurrent protection between the AC input and the converter module.
● Ensure Proper Grounding: Ensure that your AC source is properly grounded to avoid shock hazards.
The T9AS5D12-24 module has a few key connections that you need to make:
● The AC input terminals (L and N) are where the high-voltage AC power will be connected.
● Connect the live wire (L) from your AC power source to the L input terminal on the power supply module.
● Connect the neutral wire (N) from the AC source to the N input terminal on the power supply module.
● Fuse: Place a fuse (typically rated for the maximum current the power supply will draw) in line with the live wire before it reaches the input terminal of the power supply. This will help protect the module in case of a fault.
● Switch: Place a switch between the AC input and the power supply’s AC terminals to control the power to the circuit. This allows you to easily turn off the power when needed.
● The module has two DC output terminals (positive and negative) that provide the 24V DC output.
● The positive output is typically labeled +V, and the negative output is labeled -V.
● Connect the positive output terminal to the device that will use the 24V DC power.
● Connect the negative output to the ground or negative terminal of the device.
● If your system will be drawing significant current (closer to 5A), you might need to add a heat sink to the T9AS5D12-24 module. This will help keep the module cool and prevent overheating, especially if you’re using it in a confined space.
● You can attach the heat sink to the power supply module’s metal casing if it has one, or use thermal paste for better heat conduction.
Now that you have all your components connected, it’s time to assemble them into a safe, organized unit.
1. Enclosure Box: Find a suitable plastic or metal enclosure to house the power supply module. Ensure the enclosure is large enough to hold the module, with enough space for airflow and cooling.
2. Drill Holes: Use a drill to make holes for the AC input and DC output connections, ensuring that the terminals are easily accessible from outside the box.
3. Mount the Module: Secure the T9AS5D12-24 module inside the enclosure using screws or mounting brackets. Make sure it is tightly held in place to prevent movement and accidental connections.
4. Install the Switch and Fuse: Install the switch and fuse on the exterior of the box, ideally on the AC input side for easy access.
Once the power supply module is securely mounted inside the enclosure, you can proceed to testing. Be sure to follow these steps to ensure the unit works as expected:
1. Double-Check the Wiring: Before powering the unit, double-check all connections, particularly the AC input and DC output wiring. Ensure everything is connected properly.
2. Measure Output Voltage: Use a multimeter to measure the DC output voltage. Set the multimeter to DC voltage mode, then measure between the positive and negative terminals of the output. The voltage should read 24V DC, indicating that the module is functioning correctly.
3. Test the Load: You can connect a small electronic device that requires 24V DC (e.g., a 24V LED strip or a 24V motor) to the output to test the power supply under load. Ensure that the voltage remains stable under load and that there is no significant voltage drop.
If the power supply is not working as expected, here are some troubleshooting steps:
1. Check Input Power: Make sure the AC input power is connected correctly, and the switch is in the "on" position.
2. Check Fuse: If the power supply is not working, check if the fuse has blown. Replace it with a fuse of the same rating if necessary.
3. Check Output Voltage: If the output voltage is not 24V, verify that the module is properly connected, and the input voltage is within the supported range (90-264V AC).
4. Excessive Heat: If the module gets too hot, ensure it has sufficient cooling. You may need to add a larger heat sink or improve airflow in the enclosure.
Once your 24V DC power supply is up and running, you can use it to power a variety of devices that require a stable 24V DC input. Some examples of applications include:
1. LED Lighting: 24V LED strips are popular in both home and commercial lighting setups, and this power supply is perfect for driving them.
2. Microcontroller Projects: Many microcontroller-based projects, such as Arduino and Raspberry Pi, can benefit from a stable 24V power source.
3. Motor Control: 24V DC motors, commonly used in robotics and automation systems, require a reliable power supply for smooth operation.
4. Battery Charging: This power supply can also be used in battery charging circuits, especially for lithium-ion or lead-acid batteries that require a 24V charging voltage.
Building a reliable 24V DC power supply with the T9AS5D12-24 module is a great way to provide a stable and efficient power source for a wide range of electronic projects. Whether you're working with LEDs, motors, or microcontrollers, this module ensures you have a safe and regulated 24V DC output. The simplicity of the design, combined with the robust features of the T9AS5D12-24 module, makes it an ideal solution for powering various devices in your DIY electronics projects.
By following the steps outlined in this article, you can easily integrate this power supply into your projects, providing a reliable and compact solution for powering devices that require a stable 24V DC input. Whether you're designing home automation systems, robotics projects, or simple LED displays, this power supply will meet your needs with efficiency and durability.
