PTC Resettable Fuses

Image	Part Number	Description / PDF	Quantity	Rfq
	RL3006-50-100-25-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 25V RADIAL DISC	0
	RL7510-10-120-120-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 120V RADIAL DISC	0
	RL5506-5.0-110-50-PTF Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 50V 390MA RADIAL	0
	RL3006-50-60-25-PT4 Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 25V RADIAL DISC	0
	YM120C45N301 Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 265V 39MA RADIAL	0
	RL3005-25-110-12-PTF Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 12V 180MA RADIAL	0
	RL7008-1.5-110-25-PTF Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 25V 810MA RADIAL	0
	YPCL0010N Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 265V 200MA RADIAL	0
	RL4005-5-110-12-PTF Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 12V 330MA RADIAL	0
	RL3006-50-50-25-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 25V RADIAL DISC	0
	RL4006-10-110-50-PTF Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 50V 230MA RADIAL	0
	RL3810-100-110-50-PTF Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 50V 80MA RADIAL	0
	RL3020-1500-100-240-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 240V RADIAL DISC	0
	RL6010-20-120-120-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 120V RADIAL DISC	0
	YM120D105N600 Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 265V 93MA RADIAL	0
	RL5510-25-60-120-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 120V RADIAL DISC	0
	RL7020-1K-100-480-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 480V RADIAL DISC	0
	RL6015-100-120-240-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 240V RADIAL DISC	0
	RL3006-50-110-25-PTO Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 25V RADIAL DISC	0
	YM120C60N151 Thermometrics (Amphenol Advanced Sensors)	PTC RESET FUSE 265V 57MA RADIAL	0

PTC Resettable Fuses

1. Overview

PTC (Positive Temperature Coefficient) Resettable Fuses are overcurrent protection devices that exhibit a sharp increase in resistance when fault currents exceed normal operating levels. Unlike traditional fuses, PTC devices automatically reset to low-resistance states after fault conditions clear. This self-recovering makes them critical in applications requiring reliable protection against short circuits and overloads without manual replacement. Their importance in modern electronics spans consumer devices, automotive systems, industrial equipment, and renewable energy installations.

2. Main Types and Functional Classification

Type	Functional Characteristics	Typical Applications
Polymer PTC (PPTC)	Organic polymer matrix with conductive particles, fast response time (ms level), low leakage current	Consumer electronics, USB ports, battery packs
Ceramic PTC	Sintered barium titanate material, higher operating temperature tolerance, stable tripping characteristics	Industrial motors, HVAC systems, automotive ECUs
Hybrid PTC	Combines polymer and ceramic elements for optimized performance, enhanced surge current capability	Telecom infrastructure, solar inverters, medical devices

3. Structure and Composition

Typical PTC fuse construction includes:

PTC Element: Conductive polymer composite (e.g., carbon-black filled polyethylene) or doped ceramic material
Electrodes: Pre-plated nickel/copper layers with solderable termination
Encapsulation: Flame-retardant epoxy resin housing (UL94 V-0 rated)
Termination: Axial leads, SMD pads, or wire leads depending on package type

The resistance-temperature curve exhibits three regions: conductive (normal), transition (trip point), and high-resistance (latched) states.

4. Key Technical Specifications

Parameter	Description	Importance
Hold Current (Ihold)	Maximum operating current before tripping (range: 0.05A-50A)	Determines normal operation compatibility
Tripping Time (Ttrip)	Response time under overcurrent conditions (1ms-10s)	Affects system fault tolerance
Max Voltage (Vmax)	Rated voltage withstand capability (3V-600V)	Safety insulation coordination
Leakage Current	Post-trip residual current ( A level)	Energy efficiency consideration
Operating Temp Range	Functional temperature range (-40 C to 125 C typical)	Environmental reliability

5. Application Areas

Consumer Electronics: Smartphones, laptops, power banks
Automotive: CAN bus protection, ADAS sensors, 12V/48V systems
Industrial: PLCs, motor drives, test equipment
Renewable Energy: Solar charge controllers, wind turbine converters
Medical Devices: Patient monitors, portable diagnostic equipment

6. Leading Manufacturers and Products

Manufacturer	Product Series	Key Features
Littelfuse	PolySwitch VLR	High inrush current tolerance for LED lighting
Bourns	MF-MSM Series	Miniature SMD design for space-constrained applications
TE Connectivity	CR28xx Series	Automotive qualified (AEC-Q200) for EV powertrains
Bel/Standex	0ZCM Series	Vertical through-hole design for industrial controls

7. Selection Guidelines

Key factors to consider:

Calculate normal operating current with 20% safety margin
Evaluate maximum fault current requirements
Match voltage rating with system specifications
Consider package type (SMD vs through-hole) for PCB layout
Analyze thermal derating curves for elevated temperatures

Example: For a 5V USB PD application, select a 0.5A hold current PPTC with 6V rating and <50ms trip time.

8. Industry Trends

Development of ultra-low resistance ( 10m ) devices for high-current applications
Integration with smart monitoring systems via embedded sensors
Growing adoption in electric vehicles for 48V/800V system protection
Nanocomposite material innovations improving response times
Miniaturization driven by 5G infrastructure and IoT device demands

Market projections indicate a CAGR of 7.2% through 2027, with Asia-Pacific region leading adoption growth.