3-30V-universal-power-supply-module
The LM317 adjustable regulator (U1) offers short-circuit protection and automatic current limiting at 1.5 A. The input voltage to the regulator is provided by a 4-A 100 PIV full-wave bridge rectifier (DB1). Capacitor C1 serves as the initial filtering component. U1 additionally provides electronic filtering as part of its regulating function. The output voltage of the regulator is adjusted using a trim-potentiometer (R1). Bypass capacitors on both the input and output of U1 help prevent high-frequency oscillation. The transformer used must have a current rating of at least 1.8 times the rated continuous-duty output of the supply. Therefore, for a 1.5-A supply, a transformer rated at 2.7 A is recommended. For lighter or intermittent loads, a smaller 2.0-A transformer may be adequate. Connecting a second LM317 (U2) in parallel with U1 is an effective method to increase the current limiting threshold to 3 A while maintaining short-circuit protection. If a current exceeding 3 A is necessary, the regulator module can be utilized to control the base of one or more pass transistors.
The LM317 adjustable voltage regulator circuit is designed to provide a stable output voltage with built-in protections against overcurrent and short circuits. The configuration begins with the input voltage being rectified by the bridge rectifier (DB1), which converts AC voltage to DC. The 4-A, 100 PIV rating ensures that the rectifier can handle the required current and voltage without failure.
Capacitor C1 plays a critical role in smoothing the rectified voltage, reducing ripple and ensuring a more stable input for the LM317. The LM317 (U1) is then tasked with regulating the voltage output, which can be adjusted using the trim-potentiometer (R1). This adjustability makes the circuit versatile for various applications requiring different output voltages.
Bypass capacitors located at both the input and output of U1 are essential for filtering out high-frequency noise that could lead to instability in the output voltage, ensuring that the regulator operates effectively under varying load conditions.
The transformer must be properly rated to handle the load. The recommendation of a transformer rated at 2.7 A for a 1.5-A output ensures that the transformer can operate within safe limits, providing headroom for transient loads. For lighter applications, a 2.0-A transformer suffices, reducing cost and size.
In applications requiring higher current, the addition of a second LM317 (U2) in parallel with U1 effectively doubles the current capacity to 3 A. This method retains the protective features of the LM317, as both regulators share the load equally. For scenarios demanding even higher currents, the circuit can be expanded further by using the LM317 to drive external pass transistors, which can handle larger current loads while still being regulated by the LM317, maintaining the desired output characteristics.
This design exemplifies a robust and flexible power supply solution suitable for various electronic applications requiring adjustable output voltage and current limiting features.Ul, an LM317 adjustable regulator provides short-circuit protection and automatic current limiting at 1.5 A. The input voltage to the regulator is supplied by DBl, a 4-A 100 PIV full-wave bridge rectifier. Capacitor Cl provides initial filtering. Ul provides additional electronic filtering as part of the regulating function. The output level of the regulator is set by trim-pot Rl. Bypass capacitors on the input and output of Ul prevent high-frequency oscillation. The current rating of the transformer must be at least 1.8 times the rated continuous-duty output of the supply.
This means that a 1.5-A supply should use a 2. 7-A transformer. For light or intermittent loads, a smaller 2.0-A transformer should suffice. Wiring a second LM317, U2, in parallel with Ul is a quick and clean way to increase the currentlimiting threshold to 3 A withoutsacrificing short-circuit protection. When more than 3 A is required, the regulator module can be used to drive the base of one or more pass-transistors (see Fig.
75-2B).
The LM317 adjustable voltage regulator circuit is designed to provide a stable output voltage with built-in protections against overcurrent and short circuits. The configuration begins with the input voltage being rectified by the bridge rectifier (DB1), which converts AC voltage to DC. The 4-A, 100 PIV rating ensures that the rectifier can handle the required current and voltage without failure.
Capacitor C1 plays a critical role in smoothing the rectified voltage, reducing ripple and ensuring a more stable input for the LM317. The LM317 (U1) is then tasked with regulating the voltage output, which can be adjusted using the trim-potentiometer (R1). This adjustability makes the circuit versatile for various applications requiring different output voltages.
Bypass capacitors located at both the input and output of U1 are essential for filtering out high-frequency noise that could lead to instability in the output voltage, ensuring that the regulator operates effectively under varying load conditions.
The transformer must be properly rated to handle the load. The recommendation of a transformer rated at 2.7 A for a 1.5-A output ensures that the transformer can operate within safe limits, providing headroom for transient loads. For lighter applications, a 2.0-A transformer suffices, reducing cost and size.
In applications requiring higher current, the addition of a second LM317 (U2) in parallel with U1 effectively doubles the current capacity to 3 A. This method retains the protective features of the LM317, as both regulators share the load equally. For scenarios demanding even higher currents, the circuit can be expanded further by using the LM317 to drive external pass transistors, which can handle larger current loads while still being regulated by the LM317, maintaining the desired output characteristics.
This design exemplifies a robust and flexible power supply solution suitable for various electronic applications requiring adjustable output voltage and current limiting features.Ul, an LM317 adjustable regulator provides short-circuit protection and automatic current limiting at 1.5 A. The input voltage to the regulator is supplied by DBl, a 4-A 100 PIV full-wave bridge rectifier. Capacitor Cl provides initial filtering. Ul provides additional electronic filtering as part of the regulating function. The output level of the regulator is set by trim-pot Rl. Bypass capacitors on the input and output of Ul prevent high-frequency oscillation. The current rating of the transformer must be at least 1.8 times the rated continuous-duty output of the supply.
This means that a 1.5-A supply should use a 2. 7-A transformer. For light or intermittent loads, a smaller 2.0-A transformer should suffice. Wiring a second LM317, U2, in parallel with Ul is a quick and clean way to increase the currentlimiting threshold to 3 A withoutsacrificing short-circuit protection. When more than 3 A is required, the regulator module can be used to drive the base of one or more pass-transistors (see Fig.
75-2B).