Instructions for Use:

1. Input Voltage (VIN):

   • Ensure the input voltage is within the range of 4.5V to 36V.
   • Do not exceed the maximum input voltage to avoid damaging the device.

2. Output Voltage (VOUT):

   • Set the output voltage between 1.8V and 15V as required by your application.
   • Use the appropriate feedback resistor values to achieve the desired output voltage.

3. Output Current (IOUT):

   • The maximum continuous output current is 2A.
   • Ensure the load does not exceed this limit to prevent overheating or damage.

4. Efficiency (η):

   • The typical efficiency is 90%.
   • Optimize the circuit design to maintain high efficiency, especially at higher currents.

5. Switching Frequency (fSW):

   • The switching frequency is fixed at 1.5MHz.
   • This helps in reducing the size of external components like inductors and capacitors.

6. Quiescent Current (IQ):

   • The quiescent current is typically 25μA.
   • This low current consumption makes the device suitable for battery-powered applications.

7. Shutdown Current (ISD):

   • The shutdown current is typically 1μA.
   • Use the shutdown pin to turn off the device when not in use to save power.

8. Operating Temperature (TOPR):

   • The operating temperature range is from -40°C to 125°C.
   • Ensure the device is used within this range to avoid thermal stress.

9. Storage Temperature (TSTG):

   • The storage temperature range is from -65°C to 150°C.
   • Store the device in a dry, cool place to ensure long-term reliability.

10. PCB Layout:

    • Place the input and output capacitors as close as possible to the device to minimize parasitic inductance.
    • Use wide and short traces for power connections to reduce resistance and inductance.

11. Thermal Management:

    • If operating at high currents, ensure adequate heat dissipation by using a heatsink or thermal pad.
    • Monitor the device temperature to avoid exceeding the maximum operating temperature.