Infineon N-Channel MOSFET, 9.9 A, 500 V PG-TO220-3 IPP50R380CEXKSA1

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Packaging Options:
RS Stock No.:
259-1561
Mfr. Part No.:
IPP50R380CEXKSA1
Brand:
Infineon
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Brand

Infineon

Channel Type

N

Maximum Continuous Drain Current

9.9 A

Maximum Drain Source Voltage

500 V

Package Type

PG-TO220-3

Mounting Type

Through Hole

Infineon CoolMOS™ CE Series MOSFET, 14.1A Maximum Continuous Drain Current, 98W Maximum Power Dissipation - IPP50R380CEXKSA1


This MOSFET is tailored for high-voltage power applications, focusing on efficiency and dependability. Incorporating CoolMOS™ technology, it improves switching performance while minimising losses, making it advantageous for various industrial applications and significantly enhancing energy management.

Features & Benefits


• Low Rds(on) reduces conduction losses, which contributes to efficiency
• High continuous drain current rating accommodates rigorous applications
• Simplifies integration into existing systems due to easy drivability
• Flexible gate threshold voltage broadens compatibility with different circuits
• Sturdy package design ensures durability in challenging environments

Applications


• Suitable for power factor correction (PFC) stages
• Works well in hard-switching PWM stages
• Applicable in resonant switching for LCD and PDP televisions
• Effective in lighting for efficient power management
• Utilised in power supplies for PCs and automation systems

What is the optimal gate-source voltage for operation?


The MOSFET functions effectively with a maximum gate-source voltage of ±30 V, optimising control across various applications.

How does this component perform in thermal environments?


With a maximum power dissipation of 98 W, it operates efficiently between -55°C and +150°C, making it suitable for a range of thermal conditions.

Can this component handle pulsed currents?


It can manage pulse currents up to 32.4A, supporting transient conditions competently without compromising performance.

What advantages does the superjunction technology provide?


Superjunction technology lowers both switching and conduction losses, enhancing overall efficiency and extending device lifespan in applications.

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