The ATEX Radiation Detector is an Zone 0 certified gamma radiation detector and full range dosimeter in a single instrument. The ATEX Radiation Detector has been designed to specifically meet the needs of first responders, the GammaRAE II has a rapid response and accurate dose measurement.
The ATEX Radiation Detector NeutronRAE II is a personal radiation detector which provides fast detection of gamma ray and neutron sources even in potentially flammable environments. With Zone 0 certification, the ATEX Radiation Detector is water immersible for chemical decontamination purposes, the ATEX Radiation Detector can be safely used in more environments then any other personal gamma and neutron radiation detector.
The ATEX Radiation Monitor DoseRAE 2 is a compact, direct-reading and alarming electronic personal radiation detector. The ATEX Radiation Monitor uses a diode and a scintillation crystal to detect X- and Gamma radiation. The ATEX Radiation Monitor provides real time monitoring of personal dose and dose rate, with real time monitoring allowing for immediate reaction in case of radiation occurences thus reducing the radiation exposure.
The ATEX Radiation Monitor is the perfect tool for protection and measurement wherever unsealed radioactive materials are being transported or manipulated. The ATEX Contamination Monitor has been designed to perform under adverse conditions and in harsh explosive environments, with certification for use in Zone 0,1 and 2.
The ATEX Dose Rate Monitor has been certified for use in Zone 0,1, and 2 hazardous areas, thus not needing a hot work permit. The ATEX Radiation Monitor detects x-rays and gamma rays down to 60keV. The T202 has a digital bargraph display of 0.1 - 1000 uSv/h and digital doserate indication of 0-10,000μSv/h which can be displayed down to 0.1μSv/h.
The ATEX Radiation Dose Rate Monitor has been specifically designed to combine intrinsic safety with ruggedised but lightweight construction and provides additional key operational features such as personal dose integration and peak dose rate memory.