POWER MOSFET N-CHANNEL 100V ID=8A TO-220 CASE HIGH SPEED SWITCH ENHANCEMENT MODE RDS=0.5 OHM, Replacement IRF520

NTE has one of the most extensive semiconductor lines in the industry. All NTE semiconductors are guaranteed to meet or exceed original specifications. With over 4,700 NTE devices cross referenced to 384,000 industry device numbers, we're sure you will find the item you need. 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