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Ceramic sintered bodies with conductive particles dispersed throughout the matrix are used to create ceramic resistors, which are entirely active and non-inductive.
Chemical inertness characterizes ceramic resistors. They can tolerate extreme temperatures and high energies, such as those used to safeguard high voltage surge equipment, discharge banks, and the suppression of high frequency radiation.
Ceramic resistors can be found in a wide range of resistor classes. Who is characterizing the resistor will frequently determine which classifications they belong to. A ceramic resistor is frequently any resistor that is enclosed with ceramic to an electrician.
Ceramic resistors, on the other hand, are those that employ ceramics to regulate a resistor’s resistive value, according to engineers and experts.
The Global Ceramic Resistor market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
A foil-on ceramic carrier chip resistor designed for these uses is the CSRF series from Stackpole Electronic. There are now 2 milliohm resistance settings available for the CSRF2512. The device can manage larger current levels thanks to these lower-value capabilities while using less power overall.
Due to their great energy absorption capacity, ceramic resistors from Ohmite are utilized as dump resistors and for inrush current-limiting. For these kinds of applications, this resistor technology is the most affordable and small.
Circuits involving surges, high peak power, or high energy are well suited for the non-inductive, high-surge, ceramic composite resistors of the RT Series, which are certified by ISO. In many cases, these resistors can take the place of hard to find carbon composition resistors.
