Details
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| Parameter | Symbol | Min | Typ | Max | Unit | Conditions |
|---|---|---|---|---|---|---|
| Drain-Source Voltage | VDS | -90 | 90 | V | ||
| Gate-Source Voltage | VGS | -20 | 20 | V | ||
| Continuous Drain Current | IDS | 9 | A | TC = 25°C | ||
| Pulse Drain Current | IDP | 36 | A | tp = 10 μs, TC = 25°C | ||
| Gate Charge | QG | 7.4 | nC | VGS = 10V | ||
| Input Capacitance | Ciss | 1200 | pF | VDS = 10V | ||
| Output Capacitance | Coss | 280 | pF | VDS = 10V | ||
| Reverse Transfer Capacitance | Crss | 320 | pF | VDS = 10V |
Instructions for Use:
Mounting and Handling:
- Handle the FMH09N90G with care to avoid damage to the leads and body.
- Ensure proper grounding during handling to prevent electrostatic discharge (ESD) damage.
Operating Conditions:
- Do not exceed the maximum ratings listed in the parameter table.
- Operate within specified temperature ranges to ensure reliable performance.
Thermal Management:
- Ensure adequate heat dissipation if operating at high currents or power levels.
- Consider using a heatsink if necessary to maintain junction temperatures within safe limits.
Gate Drive:
- Provide appropriate gate drive signals to achieve optimal switching performance.
- Keep gate resistance low enough to minimize switching losses but high enough to control dv/dt.
PCB Layout:
- Design PCB layout to minimize parasitic inductances and capacitances.
- Place decoupling capacitors close to the device for stable operation.
Testing and Validation:
- Perform thorough testing under actual operating conditions to validate performance.
- Monitor key parameters such as temperature, current, and voltage to ensure safe operation.
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