Details
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| Parameter | Symbol | Value | Unit |
|---|---|---|---|
| Maximum Drain-Source Voltage | VDS(max) | 500 | V |
| Maximum Gate-Source Voltage | VGS(max) | 卤20 | V |
| Maximum Continuous Drain Current | ID(max) | 15 | A |
| Maximum Pulse Drain Current (tp = 10 ms, IG = 10 A) | IDpeak | 45 | A |
| Maximum Power Dissipation (TC = 25掳C) | PTOT(max) | 225 | W |
| Maximum Junction Temperature | TJ(max) | 175 | 掳C |
| Storage Temperature Range | TSTG | -65 to 150 | 掳C |
| Lead Temperature (soldering, 10 s) | TL | 300 | 掳C |
Instructions for Use:
Handling Precautions:
- ESD Sensitivity: The FDP15N50 is sensitive to electrostatic discharge (ESD). Use proper ESD protection equipment when handling the device.
- Moisture Sensitivity: Store the device in a dry environment to prevent moisture damage.
Mounting and Soldering:
- Soldering Temperature: Ensure that the lead temperature does not exceed 300掳C for more than 10 seconds during soldering.
- Thermal Management: Proper heat sinking is recommended to manage the maximum power dissipation and maintain the junction temperature within safe limits.
Electrical Connections:
- Gate-Source Voltage: Do not exceed the maximum gate-source voltage (卤20V) to avoid damaging the device.
- Drain-Source Voltage: Ensure that the drain-source voltage does not exceed 500V to prevent breakdown.
Operating Conditions:
- Continuous Drain Current: The maximum continuous drain current is 15A. For pulse applications, refer to the pulse drain current specifications.
- Power Dissipation: The maximum power dissipation at 25掳C case temperature is 225W. Adjust for higher ambient temperatures using derating curves.
Storage and Transportation:
- Temperature Range: Store the device within the storage temperature range of -65掳C to 150掳C.
- Humidity Control: Avoid exposure to high humidity to prevent corrosion and other moisture-related issues.
Testing and Troubleshooting:
- Initial Testing: Perform initial testing under controlled conditions to ensure the device is functioning correctly.
- Fault Diagnosis: If the device fails, check for overvoltage, overcurrent, and overheating conditions. Use appropriate diagnostic tools to identify the root cause.
For detailed application notes and further technical information, refer to the datasheet provided by the manufacturer.
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