Details

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BUY S60D40C https://www.utsource.net/itm/p/11756235.html

Parameter	Symbol	Min	Typical	Max	Unit
Input Voltage	V_IN	2.7	-	5.5	V
Output Voltage	V_OUT	-	3.3	-	V
Output Current	I_OUT	-	400	-	mA
Quiescent Current	I_Q	-	10	-	渭A
Dropout Voltage	V_DROPOUT	-	0.4	-	V
Efficiency	畏	-	90	-	%
Operating Temperature	T_OP	-40	-	85	掳C
Storage Temperature	T_STG	-40	-	125	掳C

Instructions for Using S60D40C

1. Input Voltage (V_IN):

   • Ensure the input voltage is within the range of 2.7V to 5.5V.
   • Do not exceed the maximum input voltage to avoid damaging the device.

2. Output Voltage (V_OUT):

   • The output voltage is fixed at 3.3V.
   • Use appropriate capacitors on the input and output to stabilize the voltage.

3. Output Current (I_OUT):

   • The device can provide up to 400mA of output current.
   • For higher current requirements, consider using a different regulator or parallel multiple devices.

4. Quiescent Current (I_Q):

   • The quiescent current is typically 10渭A.
   • This low quiescent current makes the device suitable for battery-powered applications.

5. Dropout Voltage (V_DROPOUT):

   • The dropout voltage is typically 0.4V.
   • Ensure that the input voltage is at least 0.4V higher than the output voltage to maintain regulation.

6. Efficiency (畏):

   • The efficiency is typically 90%.
   • High efficiency reduces power loss and heat generation.

7. Operating Temperature (T_OP):

   • The operating temperature range is from -40掳C to 85掳C.
   • Ensure the device is used within this temperature range to avoid performance degradation or damage.

8. Storage Temperature (T_STG):

   • The storage temperature range is from -40掳C to 125掳C.
   • Store the device in a dry place within this temperature range to prevent damage.

9. Capacitor Recommendations:

   • Use a 1渭F ceramic capacitor on the input side and a 1渭F ceramic capacitor on the output side to ensure stability.
   • For better transient response, you can use additional capacitors as needed.

10. PCB Layout:

    • Place the input and output capacitors as close as possible to the regulator to minimize parasitic inductance.
    • Use wide traces for the input and output paths to reduce resistance and improve thermal performance.

11. Thermal Management:

    • If the device is expected to operate at high current or in high ambient temperatures, consider adding a heatsink or using a PCB with a large copper area to dissipate heat.

By following these instructions, you can ensure optimal performance and reliability of the S60D40C regulator in your application.

(For reference only)