Description
BUY NCP303LSN30T1 https://www.utsource.net/itm/p/11294383.html
NCP303LSN30T1 Voltage Supervisor 3V SOT-153/SOT23?5/TSOP?5/SC59?5 marking SC Voltage Detectorwith Programmable Delay
| Parameter |
Symbol |
Min |
Typ |
Max |
Unit |
Notes |
| Input Voltage |
VIN |
2.7 |
- |
5.5 |
V |
|
| Output Voltage |
VOUT |
3.0 |
- |
3.0 |
V |
Fixed |
| Output Current |
IOUT |
- |
300 |
- |
mA |
|
| Quiescent Current |
IQ |
- |
40 |
- |
μA |
|
| Dropout Voltage |
VDROPOUT |
- |
300 |
- |
mV |
@ IOUT = 300mA |
| Shutdown Current |
ISD |
- |
0.1 |
- |
μA |
|
| Operating Temperature |
TOPR |
-40 |
- |
85 |
°C |
|
| Storage Temperature |
TSTG |
-65 |
- |
150 |
°C |
|
| Thermal Resistance (θJA) |
θJA |
- |
140 |
- |
°C/W |
|
Instructions for Use:
Input Voltage Range:
- Ensure the input voltage is within the range of 2.7V to 5.5V. Operating outside this range can damage the device.
Output Voltage:
- The output voltage is fixed at 3.0V. No external resistors are required for voltage setting.
Output Current:
- The maximum continuous output current is 300mA. Ensure the load does not exceed this limit to avoid overheating or damage.
Quiescent Current:
- The quiescent current is typically 40μA. This is the current consumed by the regulator when it is active but not supplying any load.
Dropout Voltage:
- The dropout voltage is 300mV at a load current of 300mA. Ensure that the input voltage is at least 300mV higher than the output voltage to maintain regulation.
Shutdown Current:
- When the shutdown pin is activated, the current consumption drops to approximately 0.1μA.
Operating Temperature:
- The device is designed to operate within a temperature range of -40°C to 85°C. Ensure the ambient temperature stays within these limits to avoid performance degradation or failure.
Storage Temperature:
- Store the device in an environment with a temperature range of -65°C to 150°C to prevent damage.
Thermal Management:
- The thermal resistance (θJA) is 140°C/W. If the device will be operating near its maximum output current, consider using a heatsink or ensuring adequate airflow to manage heat dissipation.
Layout Considerations:
- Place the input and output capacitors as close as possible to the regulator to minimize noise and improve stability.
- Use low ESR (Equivalent Series Resistance) capacitors for both input and output to ensure optimal performance.
Capacitor Selection:
- For input capacitance, a 1μF ceramic capacitor is recommended.
- For output capacitance, a 1μF to 10μF ceramic capacitor is recommended to ensure stability and reduce output ripple.
Shutdown Pin:
- To shut down the regulator, pull the shutdown pin low (to ground). To enable the regulator, leave the shutdown pin open or connect it to the input voltage.
PCB Layout:
- Follow good PCB layout practices to minimize parasitic inductances and capacitances. Keep traces short and wide, especially for power and ground connections.
Handling Precautions:
- Handle the device with care to avoid static discharge, which can damage the internal circuits. Use proper ESD (Electrostatic Discharge) protection equipment when handling the device.
(For reference only)
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