IRF520 N-Channel Power MOSFET Easy, Reliable Switching

Simple, Efficient Power Control

The IRF520 N-channel MOSFET is designed for high-speed switching and efficient power handling in everyday electronics projects. Rated for 100V and 9.2A, this power MOSFET can easily be used in circuit upgrades or new DIY builds, offering solid performance in a compact package.

Key Features of the IRF520 MOSFET

• N-channel enhancement mode: Delivers reliable and fast switching.
• 100V maximum voltage: Handles higher voltage loads with ease.
• 9.2A current capability: Suitable for plenty of common devices and circuits.
• Designed for high-speed switching: Great for DC-DC converters, motor drivers, and power supplies.

Easy for Everyday Use

This IRF520 MOSFET is a favorite in home electronics, robotics, Arduino projects, automotive circuits, and more. It’s compatible with a wide range of microcontrollers and driver boards that use power MOSFET transistors for switching and controlling voltage.

Technical Data

• Type: N-channel Power MOSFET (Enhancement Mode)
• Maximum Voltage: 100V
• Maximum Current: 9.2A
• High-speed switching suitable for modern electronics
• Quantity Per Package: 1
• Part Number: VET2382

Applications

• Switching circuits
• DC-DC converters
• Motor drivers and control systems
• General purpose power switching

Looking for a dependable MOSFET for your next electronics project? The IRF520 N-channel MOSFET is up to the taskoffering simple installation, reliable switching, and power you can trust.

This part is the equivalent replacement for the following:

2SK1185 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), 2SK702 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), 2SK703 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), 2SK991, 2SK992 (Must use the insulating hardware supplied.), 86-1273, 86-1275, D84BK2 (Must use the insulating hardware supplied.), D84BL2 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), D84CK2 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), D84CL2 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), D84DK2 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), D84DL2 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), ECG2382, IRF510, IRF520, IRF520FI (Must use the insulating hardware supplied.), IRF521, IRF521FI (Must use the insulating hardware supplied.), IRF522, IRF522FI (Must use the insulating hardware supplied.), IRF523, IRF523FI (Must use the insulating hardware supplied.), IRFS520 (Must use the insulating hardware supplied.), IRFS521 (Must use the insulating hardware supplied.), IRFS522 (Must use the insulating hardware supplied.), IRFS523 (Must use the insulating hardware supplied.), K1185(FET) (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), K702(FET) (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), K703(FET) (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), K991(FET), K992(FET) (Must use the insulating hardware supplied.), MTP4N08 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), MTP4N10 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), MTP5N05 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), MTP5N06 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), MTP6N10 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), MTP8N10, MTP8N10-3, NTE2382, RFP2N08, RFP2N10, SK10128, SK10128/2382, STP10N10 (Minor electrical difference exists, but device will function in most applications.), UFN510 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN511 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN512, UFN512-2 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN513 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN520 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN521 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN522 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN523 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF520, YTF521, YTF522, YTF523