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Radiation tolerant resistors are specialised resistors that are designed to provide reliable operation in harsh radiation environments, such as those found in space, nuclear power plants, and high-energy particle accelerators.
Radiation tolerant resistors are typically made of materials that are highly resistant to radiation damage, such as silicon carbide, tantalum nitride, or boron nitride. These materials are able to withstand high levels of radiation without suffering significant degradation.
Radiation tolerant resistors are designed to be highly stable and reliable in radiation environments, allowing them to operate effectively in these conditions.
They also typically feature low temperature coefficients, allowing them to remain stable in a wide range of temperatures. Additionally, radiation tolerant resistors are often constructed with metal-oxide-semiconductor (MOS) technology, which helps to reduce the effects of radiation-induced leakage current.
Radiation tolerant resistors are essential components in many applications, including those related to aerospace, medical, and military electronics.
They are also used in nuclear power plants, particle accelerators, and space vehicles, where radiation levels can be extremely high. By providing reliable operation in such harsh environments, radiation tolerant resistors help ensure the safe and reliable operation of these critical systems.
The Global Radiation tolerant resistors Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Radiation tolerant resistors are electronic components designed to be used in environments with high radiation levels. These resistors are designed to withstand radiation levels that would damage or destroy conventional components. Radiation tolerant resistors are most commonly used in aerospace and military applications, such as space exploration and nuclear weapons.
Recently, several new product launches and companies have emerged to provide radiation tolerant resistors. KEMET Corporation is one of the leading companies in the development of radiation tolerant resistors for aerospace and military applications.
Their products are designed to withstand radiation levels up to 10,000 times higher than conventional components. KEMET also offers a wide range of radiation tolerant resistor products, including Film Resistor, Thick Film Resistor, Open Air Resistor and Resistor Network.
Another company offering radiation tolerant resistors is Vishay Intertechnology. Vishay’s products are designed to withstand radiation levels up to 1,000 times higher than conventional components.
They offer a wide range of resistor products, including Thin Film Resistor, Thick Film Resistor and Open Air Resistor. Vishay also offers custom designs to meet the specific needs of their customers.
A new company in the radiation tolerant resistor market is Spectrol Electronics. Spectrol designs radiation tolerant resistors for space exploration and military applications.
Their products are designed to withstand radiation levels up to 10,000 times higher than conventional components. They offer a wide range of radiation tolerant resistor products, including Thin Film Resistor, Thick Film Resistor and Resistor Network.
Known for their superior performance and radiation endurance, KOA Speer Electronics’ RN73R range of precision thick-film chip resistors is a noteworthy product line. These resistors are made to survive radiation exposure of different kinds without significantly degrading their electrical characteristics.
Because radiation exposure is an unavoidable problem in these industries, the RN73R series is highly sought-after for use in crucial applications such as aerospace, space exploration, nuclear power, medical equipment, and high-energy physics research. The excellent precision of the RN73R series is one of its distinguishing qualities. Because of the careful engineering, these resistors deliver precise and consistent resistance values.
This accuracy is essential for applications that require reliable performance even in hostile radiation settings. This accuracy is essential for applications that require reliable performance even in hostile radiation settings.
The RN73R resistors may be trusted to retain the set resistance values whether they are installed on a satellite circling the Earth or a spaceship traveling through deep space, adding to the overall dependability of the electrical systems they are incorporated into.
Additionally, the RN73R series has a small form factor, making it ideal for applications with limited space. These thick-film chip resistors are available in a range of sizes, giving engineers the freedom to select the ideal resistance for their particular design needs.
Due to its ability to make optimum use of available space and contribute to lightweight and compact electronic assemblies, the small size is particularly helpful in areas where downsizing is a concern. The RN73R resistors stand out for their strong radiation tolerance in addition to their accuracy and small design. Electronic components can face substantial difficulties in radiation-rich settings, such as those found in space or nuclear power plants.
red to counteract the harmful effects of radiation exposure. In order to preserve the functionality and lifetime of vital electronic systems and shield them from the negative effects of radiation-induced deterioration, radiation tolerance is essential.
The dedication of KOA Speer Electronics to strict quality control procedures further increases the reliability of the RN73R resistors. To guarantee that they meet or surpass industry standards for radiation tolerance and general performance, the resistors go through thorough testing and validation. Customers can therefore trust these resistors to be reliable and durable even in the most demanding and difficult conditions.
The RN73R series also provides a wide range of resistance levels to meet the needs of various applications. Whether it be for voltage dividers, current sensing applications, high-precision analog circuits, or other crucial tasks inside electronic systems, engineers and designers can choose the suitable resistor from the series to satisfy their individual requirements.
Additionally well-known for its superior temperature coefficient of resistance (TCR), the RN73R series. This property guarantees that the resistors’ resistance will remain constant throughout a broad temperature range, minimizing the possibility of thermal drift and assuring reliable performance under a variety of thermal circumstances. This characteristic is especially important for applications that deal with high temperature variations, such as satellite and aeronautical systems.
