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BUY LM2575HVT-12/NOPB https://www.utsource.net/itm/p/9920941.html
IC REG BUCK 12V 1A TO220-5
| Parameter | Symbol | Conditions | Min | Typ | Max | Unit |
|---|---|---|---|---|---|---|
| Input Voltage | VIN | Continuous | 7 | - | 40 | V |
| Output Voltage | VOUT | Fixed Output | - | 12.0 | - | V |
| Output Current | IOUT | Continuous | - | 3.0 | - | A |
| Switching Frequency | fSW | Typical Operation | - | 52 | - | kHz |
| Dropout Voltage | VDROPOUT | IOUT = 3A | - | 1.5 | - | V |
| Quiescent Current | IQ | VIN = 40V, No Load | - | 5 | - | mA |
| Efficiency | η | VIN = 24V, IOUT = 1A | - | 82 | - | % |
Instructions for Use
Circuit Design:
- Ensure the input voltage is within the specified range of 7V to 40V.
- Connect a suitable output capacitor (typically 10μF to 100μF) between the output and ground to stabilize the output voltage.
Heat Management:
- The LM2575HVT-12/NOPB can dissipate heat through its exposed pad. Ensure this pad is soldered to a large copper area on the PCB for efficient heat dissipation.
Component Selection:
- Choose an inductor with a saturation current higher than the maximum load current and a low DC resistance to minimize losses.
- Select input and output capacitors that can handle the ripple current at the switching frequency.
Layout Considerations:
- Place components close to the regulator to minimize trace inductance, especially for the input capacitor and the diode.
- Keep the loop area small to reduce noise and improve stability.
Testing and Troubleshooting:
- Verify the output voltage using a multimeter to ensure it is stable at 12V.
- Check the temperature of the regulator under load conditions to ensure it does not overheat.
- If the output voltage is unstable or incorrect, check the connections and component values, particularly the inductor and capacitors.
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