1. Overview

Thermal cutoffs, also known as thermal fuses, are non-resettable overtemperature protection devices designed to interrupt electrical circuits when temperatures exceed predefined thresholds. They act as critical safety components in electrical and electronic systems, preventing overheating-related failures, fires, or equipment damage. These devices are widely used in appliances, industrial machinery, and automotive systems due to their reliability and compliance with international safety standards.

2. Main Types and Functional Classification

3. Structure and Components

Typical thermal cutoffs consist of:

• Temperature-sensitive element: Bimetallic strip, fusible alloy, or polymer-based material
• Contact system: Silver-plated contacts for low resistance
• Insulation housing: Flame-retardant thermoplastic or ceramic materials
• Termination: Axial leads, radial leads, or surface-mount pads

Advanced designs incorporate hermetically sealed chambers for environmental protection and precise calibration mechanisms for accurate trip temperatures.

4. Key Technical Specifications

5. Application Fields

• Consumer Electronics: Smartphones (battery protection), power adapters
• Home Appliances: Washing machines (motor protection), rice cookers
• Industrial Equipment: Transformers, CNC machine tools
• Automotive: Battery management systems, HVAC units

Case Study: In electric kettles, thermal cutoffs prevent boil-dry damage by disconnecting heating elements at 158 C 5 C.

6. Key Manufacturers and Products

7. Selection Guidelines

• Match rated temperature to system's maximum safe operating temperature
• Verify current/voltage ratings exceed circuit requirements
• Consider environmental factors (vibration, humidity, thermal cycling)
• Select appropriate form factor (through-hole, SMD, panel mount)
• Check compliance with safety standards (UL 1434, IEC 60675)

8. Industry Trends

Future developments include:

• Nanomaterial-based temperature sensors for faster response times
• Integration with IoT-enabled thermal management systems
• Miniaturization for wearable electronics (sub-5mm packages)
• Eco-friendly designs eliminating cadmium-based alloys
• AI-driven predictive thermal cutoff systems