This must have in your Lab|LM317 voltage regulator
In this project, I have designed a simple adjustable voltage DC power supply using the LM317 IC with an LM317 power supply circuit diagram. As this circuit has an inbuilt bridge rectifier so we can directly connect 220V/110V AC supply at the input. The circuit converts 230volt / 110volt AC to 0-12volt DC.
You can also monitor the output voltage on the digital voltmeter, mounted on the PCB. This circuit can be used as a variable DC power source for different electronics projects.
1. LM317 IC with heat sink 1no
2. 10 uF Capacitor 1no
3. 1000 uF Capacitors 2no
4. 0.1uF Capacitors 2no
5. 1k resistor 1no
6. 240-ohm resistor 1no
7. 5k potentiometer 1no
8. 1N4007 Diodes 6no
9. 5-mm LED 1no
10. Step Down Transformer 220/110V to 15v
11. Digital Voltmeter 0-100V Three Wire (Optional)
12. Connectors
Before working with the LM317 regulator we should know the pros and corns of the LM317 regulator.
So in this video, I have discussed the following topic of LM317 which gives you a clear idea about LM317
1. Operating Condition of LM317 from Datasheet [voltage, current, temperature rating, etc]
2. Explained how the LM317t circuit works with voltage equation [use of capacitors, resistors in circuit]
3. Pinout of LM317t ic [Adjust pin, output pin & input pin]
4. How to make variable dc power supply circuit with LM317t on a breadboard
5. LM 317 circuit analysis [input and output voltage measurement with multimeter]
6. How to use LM317 as a fixed voltage regulator [LM317t as 7806]
7. How to calculate power dissipation in LM 317 [When heat sink should be used with LM 317]
8. Protections for LM 317 circuit for different applications from LM317 datasheet
I have discussed all the features of the LM317 Adjustable Voltage Regulator with different Practical Experiments, like motor speed controller, LED dimmer, variable DC power supply, etc.
You can refer to the circuit diagram for the LM317 variable DC power supply. I have mentioned all the component's rating in the circuit.
First, the step-down transformer reduces the voltage 220V/110V to 15 volt AC.
Then a bridge rectifier converts 15V AC to 15V DC.
At the input of the LM317 IC, the voltage is 15Volt to get the maximum 12V DC at the output.
The output voltage can be controlled by the potentiometer.
Before the PCB design, I have tested the circuit on the breadboard.
For this circuit the maximum current limit for the circuit is 1.5Amp and the maximum output Voltage is 12Volt.
As the LM317 is a linear voltage regulator, so input voltage will always be greater than the output voltage. If the difference between input and output voltage increases the efficiency of the circuit decreases.
After testing on Breadboard I have designed the PCB for LM317 DC Power Supply so that I can use the circuit as a power source for my different electronics projects.
Solder all the components as marked on PCB. Fitted the step-down transformer and connect the primary and secondary as mentioned on PCB.
Connect the 220 volt or 110 volts at the input of the circuit.
Always take proper precautions while working with high voltage (110V or 220V).
Our LM317 Adjustable power supply is ready. Now we can connect any small DC load like LEDs, DC motors, etc at the output.
The maximum current limit for the circuit is 1.5Amp and the Maximum output Voltage is 12Volt.
Thank you for your time. Please share your feedback and also let me know if you have any queries regarding this project.
This must have in your Lab|LM317 voltage regulator
In this project, I have designed a simple adjustable voltage DC power supply using the LM317 IC with an LM317 power supply circuit diagram. As this circuit has an inbuilt bridge rectifier so we can directly connect 220V/110V AC supply at the input. The circuit converts 230volt / 110volt AC to 0-12volt DC.
You can also monitor the output voltage on the digital voltmeter, mounted on the PCB. This circuit can be used as a variable DC power source for different electronics projects.
1. LM317 IC with heat sink 1no
2. 10 uF Capacitor 1no
3. 1000 uF Capacitors 2no
4. 0.1uF Capacitors 2no
5. 1k resistor 1no
6. 240-ohm resistor 1no
7. 5k potentiometer 1no
8. 1N4007 Diodes 6no
9. 5-mm LED 1no
10. Step Down Transformer 220/110V to 15v
11. Digital Voltmeter 0-100V Three Wire (Optional)
12. Connectors
Before working with the LM317 regulator we should know the pros and corns of the LM317 regulator.
So in this video, I have discussed the following topic of LM317 which gives you a clear idea about LM317
1. Operating Condition of LM317 from Datasheet [voltage, current, temperature rating, etc]
2. Explained how the LM317t circuit works with voltage equation [use of capacitors, resistors in circuit]
3. Pinout of LM317t ic [Adjust pin, output pin & input pin]
4. How to make variable dc power supply circuit with LM317t on a breadboard
5. LM 317 circuit analysis [input and output voltage measurement with multimeter]
6. How to use LM317 as a fixed voltage regulator [LM317t as 7806]
7. How to calculate power dissipation in LM 317 [When heat sink should be used with LM 317]
8. Protections for LM 317 circuit for different applications from LM317 datasheet
I have discussed all the features of the LM317 Adjustable Voltage Regulator with different Practical Experiments, like motor speed controller, LED dimmer, variable DC power supply, etc.
You can refer to the circuit diagram for the LM317 variable DC power supply. I have mentioned all the component's rating in the circuit.
First, the step-down transformer reduces the voltage 220V/110V to 15 volt AC.
Then a bridge rectifier converts 15V AC to 15V DC.
At the input of the LM317 IC, the voltage is 15Volt to get the maximum 12V DC at the output.
The output voltage can be controlled by the potentiometer.
Before the PCB design, I have tested the circuit on the breadboard.
For this circuit the maximum current limit for the circuit is 1.5Amp and the maximum output Voltage is 12Volt.
As the LM317 is a linear voltage regulator, so input voltage will always be greater than the output voltage. If the difference between input and output voltage increases the efficiency of the circuit decreases.
After testing on Breadboard I have designed the PCB for LM317 DC Power Supply so that I can use the circuit as a power source for my different electronics projects.
Solder all the components as marked on PCB. Fitted the step-down transformer and connect the primary and secondary as mentioned on PCB.
Connect the 220 volt or 110 volts at the input of the circuit.
Always take proper precautions while working with high voltage (110V or 220V).
Our LM317 Adjustable power supply is ready. Now we can connect any small DC load like LEDs, DC motors, etc at the output.
The maximum current limit for the circuit is 1.5Amp and the Maximum output Voltage is 12Volt.
Thank you for your time. Please share your feedback and also let me know if you have any queries regarding this project.
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