Fuses

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Mfr Part #	Quantity Available	Price	Series	Package	Product Status	Mounting Type	Fuse Type	Current Rating (Amps)	Voltage Rating - AC	Voltage Rating - DC	Response Time	Package / Case	Breaking Capacity @ Rated Voltage	Melting I²t	Approval Agency	Operating Temperature	Color	Size / Dimension

0679L4000-01 FUSE BRD MNT 4A 125VAC/VDC 2SMD Bel Fuse Inc.	11,160 In Stock	1 : $0.37000 Cut Tape (CT) 1,000 : $0.16377 Tape & Reel (TR)	0679L	Tape & Reel (TR) Cut Tape (CT) Digi-Reel®	Active	Surface Mount	Board Mount (Cartridge Style Excluded)	4 A	125 V	125 V	Fast Blow	2-SMD, Square End Block	50A AC, 300A DC	3.5	AEC-Q200, cURus	-55°C ~ 125°C	-	0.240" L x 0.100" W x 0.110" H (6.10mm x 2.54mm x 2.79mm)
0476004.MR FUSE BRD MT 4A 250VAC 125VDC SMD Littelfuse Inc.	2,826 In Stock	1 : $1.59000 Cut Tape (CT) 1,000 : $0.71922 Tape & Reel (TR)	NANO²®476	Tape & Reel (TR) Cut Tape (CT) Digi-Reel®	Active	Surface Mount	Board Mount (Cartridge Style Excluded)	4 A	250 V	125 V	Fast Blow	2-SMD, Square End Block	100A AC, 300A DC	2.82	cURus	-55°C ~ 125°C	-	0.240" L x 0.106" W x 0.106" H (6.10mm x 2.69mm x 2.69mm)
0476001.MRSN FUSE BRD MT 1A 250VAC 125VDC SMD Littelfuse Inc.	323 In Stock	1 : $1.59000 Cut Tape (CT) 1,000 : $0.71922 Tape & Reel (TR)	NANO²®476	Tape & Reel (TR) Cut Tape (CT) Digi-Reel®	Active	Surface Mount	Board Mount (Cartridge Style Excluded)	1 A	250 V	125 V	Fast Blow	2-SMD, Square End Block	100A AC, 300A DC	0.193	cURus	-55°C ~ 125°C	-	0.240" L x 0.106" W x 0.106" H (6.10mm x 2.69mm x 2.69mm)
0476002.MRSN FUSE BRD MT 2A 250VAC 125VDC SMD Littelfuse Inc.	0 In Stock Check Lead Time	1 : $1.59000 Cut Tape (CT) 1,000 : $0.71922 Tape & Reel (TR)	NANO²®476	Tape & Reel (TR) Cut Tape (CT) Digi-Reel®	Active	Surface Mount	Board Mount (Cartridge Style Excluded)	2 A	250 V	125 V	Fast Blow	2-SMD, Square End Block	100A AC, 300A DC	0.53	cURus	-55°C ~ 125°C	-	0.240" L x 0.106" W x 0.106" H (6.10mm x 2.69mm x 2.69mm)

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Fuses

A fuse is a device designed to stop current flow when it exceeds a certain limit (overcurrent protection). The devices works by creating an opening in a material situated between two end terminals. The material will melt (blow) from an increase in heat generated by the device as the current flow changes. The amount of time it takes the device to blow is often defined as fast or slow-blow.