* Question
What is the pearl thermistor usually made of?
* Answer
A pearl thermistor, also known as a bead-type thermistor, is a compact, highly sensitive temperature sensor typically constructed from metal oxide ceramic materials. Its design and material composition enable it to deliver precise thermal measurements and rapid response times, making it suitable for applications in medical devices, battery packs, and temperature compensation circuits.
1. Core Material Composition
Pearl thermistors are typically made from a mixture of transition metal oxides, including:
Manganese oxide (Mn₂O₃)
Nickel oxide (NiO)
Cobalt oxide (Co₃O₄)
Copper oxide (CuO)
Iron oxide (Fe₂O₃)
These oxides are chosen for their semiconducting properties, which vary predictably with temperature. The specific mixture and ratio depend on the desired temperature coefficient and operating range.
2. Type of Thermistor Behavior
Pearl thermistors are generally:
NTC (Negative Temperature Coefficient) thermistors: Their resistance decreases exponentially with rising temperature.
This makes them ideal for temperature sensing and compensation functions, where fast and accurate thermal response is required.
3. Structure and Encapsulation
The metal oxide mix is sintered into a small bead (as small as 0.15 mm in diameter).
This bead is then encapsulated in glass, which:
Provides electrical insulation,
Protects against moisture and chemical corrosion,
Ensures long-term stability and repeatability.
4. Key Features
High thermal sensitivity
Fast response time due to small mass
Excellent stability over wide temperature ranges
High resistance to environmental stress (vibration, thermal shock)
In Summary:
A pearl thermistor is usually made of sintered metal oxide ceramics—primarily manganese, nickel, cobalt, and copper oxides—encapsulated in a protective glass bead. This material combination provides high accuracy, responsiveness, and durability for a range of precision temperature-sensing applications.
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