Brief introduction: FT-37 protective X- γ radiometer is characterized by excellent energy response, light weight, low power consumption, wide range and simple use. The instrument still has good measurement repeatability, stability, accuracy and performance index at a slightly higher radiation level in the natural background. It has the function of measuring dose rate, dose, peak dose rate and so on. It is especially suitable for X-ray medical equipment, radioisotope application and atomic energy industry to measure random and continuous radiation. After correction, the absorbed dose of β-ray can be measured and the high energy α-particles can be detected. The product is a nuclear power plant, nuclear facilities, nuclear medicine, radiation detection and radiation treatment facilities, health disease control and other industries ideal detection instruments. Technical indicators: Detector: ionization chamber Detected radiation: X γ rays Display: LCD or touch-screen mobile phone display, optional Measurement range: dose rate range: 0. 01 μ Sv/h~1Sv/h (wide range, obvious superiority) Dose range: 0. 01 μ Sv~9999 μ Sv Peak dose rate: 0. 1 μ Sv/h~9999 μ Sv/h Accuracy: ≤ ±10% Energy response: 6keV~15keV ±20% (wide energy range) 15keV~100keV ±10% 100kev~3MeV ±10% Angular response: 2 π solid angle response change ±10% Power supply: working voltage: DC12V~7.4V Working current: ≤ 3mA Environmental response: temperature: -20 ℃ ~ 50 ℃ RH: ≤ 95% (40 ℃) Preheating time: ≤ 2min Weight: about 1.6Kg
Brief introduction: FT-37 protective X- γ radiometer is characterized by excellent energy response, light weight, low power consumption, wide range and simple use. The instrument still has good measurement repeatability, stability, accuracy and performance index at a slightly higher radiation level in the natural background. It has the function of measuring dose rate, dose, peak dose rate and so on. It is especially suitable for X-ray medical equipment, radioisotope application and atomic energy industry to measure random and continuous radiation. After correction, the absorbed dose of β-ray can be measured and the high energy α-particles can be detected. The product is a nuclear power plant, nuclear facilities, nuclear medicine, radiation detection and radiation treatment facilities, health disease control and other industries ideal detection instruments.
