NTE2376 - MOSFET N-Channel Enhancement, 200V 30A
Diag582

NTE2376 - MOSFET N-Channel Enhancement, 200V 30A

Part number: NTE2376
$12.02
NTE Semiconductors

NTE Part Number: NTE2376
Description: MOSFET-N CHANNEL POWER
QTY Per Package: 1

QTY In Stock: 8 (as of 12/04/2016 02:00 PM PST)
There is a 1-2 week lead-time for out of stock items.

Click here for the datasheet for NTE2376.
If this datasheet link is broken, the datasheet may still be available at nteinc.com.
This part is the equivalent replacement for the following:
2N6765 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), 2N6766 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), 2SK355 (Minor mechanical difference exists, but device will fit most applications.), 2SK387, 2SK622 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), 2SK804 (Minor mechanical difference exists, but device will fit most applications.), 2SK805 (Minor mechanical difference exists, but device will fit most applications.), 2SK851, BUK426-200A (Must use the insulating hardware supplied.), BUK426-200B (Must use the insulating hardware supplied.), BUK436-200A, BUK436-200B, BUZ33 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), BUZ34 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), BUZ35 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), BUZ350, BUZ36 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), ECG2376, IRF240 (Minor mechanical difference exists, but device will fit most applications.), IRF241 (Minor mechanical difference exists, but device will fit most applications.), IRF242 (Minor mechanical difference exists, but device will fit most applications.), IRF243 (Minor mechanical difference exists, but device will fit most applications.), IRF250 (Minor mechanical difference exists, but device will fit most applications.), IRF251 (Minor mechanical difference exists, but device will fit most applications.), IRF252 (Minor mechanical difference exists, but device will fit most applications.), IRF253 (Minor mechanical difference exists, but device will fit most applications.), IRFIP240, IRFIP250, IRFIP254 (Must use the insulating hardware supplied.), IRFP240, IRFP240FI (Must use the insulating hardware supplied.), IRFP241 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), IRFP242 (Minor electrical difference exists, but device will function in most applications.), IRFP243, IRFP250, IRFP250B, IRFP250PBF, IRFP251, IRFP252, IRFP253, IRFS240 (Must use the insulating hardware supplied.), IRFS241 (Must use the insulating hardware supplied.), IRFS242 (Must use the insulating hardware supplied.), IRFS243 (Must use the insulating hardware supplied.), IRFS250 (Must use the insulating hardware supplied.), IRFS251 (Must use the insulating hardware supplied.), IRFS252 (Must use the insulating hardware supplied.), IRFS253 (Must use the insulating hardware supplied.), K355 (Minor mechanical difference exists, but device will fit most applications.), K355(FET) (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), K387, K387(FET), K622(FET) (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), K804 (Minor mechanical difference exists, but device will fit most applications.), K804(FET) (Must use the insulating hardware supplied.), K805 (Minor mechanical difference exists, but device will fit most applications.), K805(FET) (Must use the insulating hardware supplied.), K851(FET), MTH15N18, MTH15N20, MTH20N12, MTH20N15, MTH30N20, MTM15N18 (Minor mechanical difference exists, but device will fit most applications.), MTM15N20 (Minor mechanical difference exists, but device will fit most applications.), MTM20N12 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), MTM20N15 (Minor mechanical difference exists, but device will fit most applications.), MTW20N20E, MTW26N15E, MTW32N20E, NTE2376, RF30N15, RFH25N18, RFH25N20, RFH30N12, RFH30N15, RFK25N15 (Minor mechanical difference exists, but device will fit most applications.), RFK25N18 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), RFK25N20 (Minor mechanical difference exists, but device will fit most applications.), RFK30N12 (Minor mechanical difference exists, but device will fit most applications.), RFK30N15 (Minor mechanical difference exists, but device will fit most applications.), RFM12N18 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), RFM12N20 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), RFM15N12 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), RFM15N15 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), SGSP477, SGSP577 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), STH33N20, STH33N20FI (Must use the insulating hardware supplied.), STW33N20FI (Must use the insulating hardware supplied.), UFN240 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN241 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN242 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN243 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN250 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN251 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN252 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), UFN253 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF240 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF241 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF242 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF243 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF250 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF251 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF252 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTF253 (May not be an exact mechanical or electrical equivalent. However, it will provide an acceptable substitute in the majority of typical applications.), YTFP250, YTFP251, YTFP252, YTFP253


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