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|Fuse Type:||Square Shape Surface Mount Fuse||Dimension:||10.25x3.2 Mm|
|Body:||Ceramic Tube||Rated Voltage:||250VAC|
|Current Ratings:||50mA-15A||Terminal:||Au Plated Brass Cap|
|Fuse Element:||Cu-Ag Alloy Wire||Operating Temperature:||-55°C To 125°C|
Sartfuse S1032-F Cross NANO 10.25x3.2 mm R1032 Series High Current Fast-Acting Surface Mount Fuse 250Vac 50mA-15A
• Surface mount high current fuse
• Available in ratings of 20 to 60 Amperes
• Higher voltage rating up to 100VDC
• 10.25×3.20 (mm) square shape surface mount
• Operating temperature range from -55°C to 125°C
• Enhanced thermal cycling endurance
• RoHS compliant and Halogen Free
• Storage system power
• Cooling fan system for PC server
• Voltage regulator module
• Base station power supply
• Voltage regulator module for PC server
• High end servers / Blade computing
• Battery Management System
AOLITTEL R1032 series slow-blow square Surface Mount fuses are ceramic tube/end cap constructions, RoHS compliant, Halogen Free and lead(Pb) exempts of the requirements of RoHS Directive(2002/95/EC), with U.S. (UL/CSA) safety agency approvals. Provide board level primary and secondary circuit protection in a wide variety of applications. With excellent inrush current withstanding capability, excellent reliability for thermal and mechanic shock, also have a high reliability and stable solder ability, end caps are available in gold/silver/nickel plated.
|Agency||Ampere Range||Agency File Number|
|50mA ~ 7A||E340427(JDYX2)|
|50mA ~ 7A||E340427(JDYX8)|
|% of Ampere Rating(In)||Blowing Time|
|100% * In||4 hours Min|
|200% * In||120 sec Max|
2000 pieces of fuses on 24mm tape-and-reel on 13 inch (330mm) reel
Guide For Fuse Selection
The purpose of this reference guide is to assist engineers to select fuses that will provide effective circuit protection for designated electronic components or equipment.
Fuse Selector Guide
1.Select the proper fuse size according to the available circuit space.
2.Select the proper fuse shape according to the mounting method of the circuit.
3.Select the proper fuse according to the product’s required safety certification standards: such as C-UL, VDE, SEMKO, PSE, CCC, KC, BSI.
4.Determine the proper fuse voltage rating according to the applied voltage of the circuit.
5.Select the appropriate fuse current rating (In) according to the maximum normal working current of the circuit.
*Considered the fuse decaying factors.
*Considering the derating of fuse based on the ambient temperature.
6.Consider the current pulse
*Calculate the circuit’s maximum current pulse I2 t value.
*Calculated the required I2t value of fuse.
Time-lag fuse typically is recommended when distinctive current pulse is specified.
7.Select the fuse type.
8.The selected fuse undergoes test runs in the circuit/product.