lm317hv variable high current variable power supply

The LM317HV adjustable regulator is capable of supplying more than 1.5A across an output voltage range of 1.2V to 57V. The design of this high-current power supply is straightforward, as the LM317HV requires only a few external resistors to set the output voltage. Additionally, both line and load regulation are superior to those of standard fixed regulators. An optional output capacitor can be included to enhance transient response. The adjustment terminal can be bypassed to achieve very high ripple rejection ratios, which are challenging to obtain with standard 3-terminal regulators. The circuit diagram illustrates that this electronic project power supply utilizes three LM317 regulators connected in parallel to deliver a maximum output current of up to 4 amperes, with a variable output voltage ranging from 4.5V to 25V.

The LM317HV adjustable voltage regulator is a versatile component widely used in power supply designs due to its ability to provide a stable output voltage across a broad range of input conditions. Operating with a maximum output current of 1.5A, it is suitable for various applications, including battery chargers, LED drivers, and low-voltage power supplies.

In the proposed circuit configuration, three LM317HV regulators are connected in parallel to increase the total output current capacity to 4A. This parallel configuration allows for the sharing of the load current among the regulators, ensuring that each device operates within its safe limits while maintaining a stable output voltage. The output voltage can be adjusted from 4.5V to 25V through the careful selection of external resistors connected to the adjust pin of each LM317HV.

To improve the transient response of the power supply, an output capacitor can be added. This capacitor helps to smooth out voltage fluctuations during sudden load changes, thereby enhancing the overall performance of the power supply. Furthermore, bypassing the adjustment terminal can significantly increase the ripple rejection ratio, leading to cleaner output with reduced noise, which is particularly beneficial in sensitive electronic applications.

The circuit design should also consider the thermal management of the LM317HV regulators, as they may dissipate significant heat under high load conditions. Proper heat sinks or thermal pads should be employed to ensure reliable operation and prevent thermal shutdown. Additionally, it is advisable to include input and output capacitors as specified in the LM317HV datasheet to ensure stability and improve transient response.

Overall, the LM317HV adjustable regulator circuit provides a robust and flexible solution for generating regulated output voltages in a variety of electronic projects.LM317HV adjustable regulator is capable of supplying in excess of 1. 5A over a 1. 2V to 57V output range. The design of these high current power supply is very easy, because the LM317HV require just few external resistors to set the output voltage. Further, both line and load regulation are better than standard fixed regulators. An optional output capacitor can be added to improve transient response. The adjustment terminal can be bypassed to achieve very high ripple rejections ratios which are difficult to achieve with standard 3-terminal regulators. As you can see in the circuit diagram, these electronic project power supply require three LM317 regulators, connected in parallel to provide a maximum output current up to 4 amperes at a variable output voltage from 4.

5 volt up to 25 volt. 🔗 External reference