Fuses

Part Number	Description / PDF	Quantity
0407001.WR Wickmann / Littelfuse	FUSE 1206 63V T-LAG 1A	130212000
0215.400TXP Wickmann / Littelfuse	FUSE CERAMIC 400MA 250VAC 5X20MM	0
0326.750MXP Wickmann / Littelfuse	FUSE CERAMIC 750MA 250VAC 125VDC	0
0219005.MXAEP Wickmann / Littelfuse	FUSE GLASS 5A 250VAC 5X20MM	0
0437008.WRA Wickmann / Littelfuse	FUSE 32V FA 1206 8A AECQ	0
028502.5MXRP Wickmann / Littelfuse	FUSE CERAMIC 2.5A 250VAC 5X20MM	0
0447002.YXP Wickmann / Littelfuse	FUSE BOARD MNT 2A 350VAC 125VDC	8000
0322025.HXP Wickmann / Littelfuse	FUSE CERAMIC 25A 65VAC/VDC 3AB	0
0451.750NRL Wickmann / Littelfuse	FUSE BOARD MNT 750MA 125VAC/VDC	0
015401.5DRL Wickmann / Littelfuse	FUSE BRD MNT 1.5A 125VAC/VDC SMD	0
35421000029 Wickmann / Littelfuse	FUSE CERAMIC 10A 440VAC 3AB 3AG	2881900
087402.5MRET1P Wickmann / Littelfuse	FUSE CERAMIC 2.5A 250VAC AXIAL	0
0498175.MXM6 Wickmann / Littelfuse	FUSE AUTO 175A 32VDC AUTO LINK	0
0216008.VXP Wickmann / Littelfuse	FUSE CERAMIC 8A 250VAC 5X20MM	0
0230001.DRT1P Wickmann / Littelfuse	FUSE GLASS 1A 250VAC/125VDC AXL	1480
0251002.PF001L Wickmann / Littelfuse	FUSE BRD MNT 2A 125VAC/VDC AXIAL	0
0326004.HXP Wickmann / Littelfuse	FUSE CERAMIC 4A 250VAC 3AB 3AG	416
0472001.MRT1L Wickmann / Littelfuse	FUSE BRD MNT 1A 125VAC/VDC AXIAL	0
0603SFP300F/32-2 Wickmann / Littelfuse	FUSE BOARD MOUNT 3A 32VDC 0603	369
0215.200MXP Wickmann / Littelfuse	FUSE CERAMIC 200MA 250VAC 5X20MM	673

Fuses

Fuses are electrical safety devices that protect circuits from overcurrent conditions. As the oldest and most widely used circuit protection technology, fuses operate by breaking the circuit when current exceeds specified limits. Their importance in modern electronics spans from consumer devices to industrial machinery, preventing damage from short circuits, overloads, and fault conditions while ensuring system reliability and safety.

Type	Functional Features	Application Examples
Miniature Cartridge Fuses	Compact glass/ceramic body, fast-acting response	Power supplies, consumer electronics
Time-Delay Fuses	Withstands temporary current surges, slow-blow characteristics	Motors, transformers, switch-mode power supplies
High-Breaker Fuses	Handles extreme fault currents (>10kA), ceramic construction	Industrial equipment, HVAC systems
Surface-Mount Fuses	Miniaturized SMD packaging for PCB integration	Smartphones, medical devices
Resettable Fuses (PTC)	Polymer-based self-resetting functionality	USB ports, battery protection circuits

Typical fuse construction includes: - Enclosure: Glass, ceramic, or plastic housing (dimensions standardized as 5x20mm, 6.3x32mm) - Fusible Element: Calibrated wire or etched metal strip (silver, copper, or alloy materials) - Filling Material: Sand/quartz for arc suppression in high-current models - Contact Terminals: Metal caps or surface-mount pads for electrical connection Modern designs incorporate laser-welded elements and precision-calibrated response mechanisms.

Parameter	Description	Importance
Rated Current (In)	Max normal operating current (0.1-250A range)	Determines circuit protection threshold
Voltage Rating	Max circuit voltage (32V-1000V DC/AC)	Ensures safe arc interruption
Breaking Capacity	Fault current interruption capability (10A-300kA)	Prevents catastrophic failure
Response Time	0.1ms (fast-acting) to 10s (time-delay)	Matches load characteristics
Trip Characteristic Curve	I2t let-through energy rating	Coordinates with upstream devices

Key industries include: - Consumer Electronics: Mobile devices, home appliances - Automotive: Battery management systems, EV charging circuits - Industrial: Motor drives, PLC systems - Telecommunications: Base station power supplies, data center infrastructure - Renewable Energy: Solar inverters, wind turbine converters

Manufacturer	Representative Product	Key Features
Littelfuse	440 Series Ceramic Fuses	1000V rating, 300kA breaking capacity
Bussmann	FWS-6 Class CC	Time-delay protection for industrial motors
TE Connectivity	Mini5Fuse	SMD 5x10mm package for space-constrained designs
Mitsubishi Electric	BF Series High-Rupture	3-phase power system protection

Key considerations: 1. Match rated current/voltage with circuit parameters 2. Coordinate breaking capacity with system fault levels 3. Select response time per load type (e.g., inrush current in motors) 4. Consider environmental factors (temperature, vibration) 5. Verify regulatory certifications (UL/IEC standards) Example: Selecting a 5x20mm F1A 250V fuse with 1500A breaking capacity for a 120W power supply.

Emerging developments include: - Miniaturization: Sub-2mm SMD fuses for wearable devices - Smart integration: IoT-enabled fuses with real-time monitoring - Material innovation: Biodegradable polymer enclosures - High-voltage specialization: 1500V DC fuses for photovoltaic systems - Hybrid solutions: Combined fuse-circuit breaker architectures