Elevate your radiation monitoring capabilities with our state-of-the-art NurFET (also known RadFET) dosimeters. Designed for precision and reliability, NurFET dosimeters are the ideal solution for a wide range of applications, from medical radiation therapy to space missions.
Key Features:
Radiation Sensitivity: NurFETs are designed to be sensitive to ionizing radiation, such as X-rays, gamma rays, and particle radiation.
Low Power Consumption: NurFETs typically consume very little power, making them suitable for applications where power efficiency is critical.
Wide Dynamic Range: They can measure a wide range of radiation doses, from very low to very high levels.
Durability: NurFETs are designed to withstand high levels of radiation without significant degradation, making them suitable for harsh environments like space missions or nuclear facilitie
Small Size: Their compact size allows for integration into various systems and devices without significant space constraints.
Long-Term Stability: NurFETs are known for their stability and reliability over long periods, which is important for long-term radiation monitoring.
| Product Code |
Package Material |
Dose Range |
Packaged Size (mm) |
Catalogue |
| SO-200-ID#1-V1 |
8-lead ceramic DIP side braze |
1 Gy to 2500 Gy |
10.3 x 7.9 x 7.1 |
Click Here |
| SO-400-ID#1-V1 |
8-lead ceramic DIP side braze |
0.1 Gy to 1500 Gy |
10.3 x 7.9 x 7.1 |
Click Here |
| SO-400-ID#1-V2 |
8-lead ceramic DIP side braze |
0.5 Gy to 1500 Gy |
10.3 x 7.9 x 7.1 |
Click Here |
Applications:
Space Missions: NurFETs are used in space satellites and spacecraft to monitor radiation levels and ensure the integrity of electronic systems in harsh space environments.
Nuclear Power Plants: They are employed in nuclear reactors near core to monitor radiation levels.
Medical Equipment: In radiation therapy applications, NurFETs help in monitoring and controlling radiation exposure.
High-Energy Physics Experiments: NurFETs are used in particle accelerators and other high-energy physics experiments to measure radiation levels and protect sensitive electronics.
Military and Defense: They are utilized in military applications to ensure the reliability of environments with high levels of radiation, such as during or after a nuclear event.
