Next Generation Radionuclide Identification Device
FLIR
identiFinder R425
Next Generation Radionuclide Identification Device.
The identiFINDER R425 is the next generation of the most deployed radionuclide identification device (RID), offering 360-degree coverage so you can locate and measure gamma and neutron radioactive sources with confidence. It builds on Teledyne FLIR’s trusted algorithms with advanced heuristics and hybrid identification techniques. With the familiar identiFINDER user interface and 3-button control, you can operate the R425 quickly, communicate results, and take command of any situation, in any environment, remotely. When other systems fail in extremely high gamma fields, the identiFINDER R425 provides pinpoint accuracy and remains fully operational. The identiFINDER R425 goes the distance with balanced ergonomic design, unparalleled ruggedness, flexible power management, and usability. The R425 provides an ideal balance of size, weight, and performance for various missions including surveying, emergency response, and environmental monitoring.
For more information, available options, or to get a quote, please visit the identiFinder R425 product page.
For more information, available options, or to get a quote, please visit the identiFinder R425 product page.
New cubic detector design, sourceless stabilization, advanced heuristics, and hybrid identification techniques enable high performance detection in all directions; 3x more sensitive gamma and 2x more sensitive neutron detection.
Remote data viewing, operation, and reach back is made possible through communication features including dual USB-C ports, Teledyne FLIR's trusted web interface, the Teledyne FLIR RAD Mobile Application, and a universal API that enables integration with user deployed networks.
IP67-rated, ergonomic design is 15% lighter than previous generations, while the exceptional 12-hour battery life provides the right balance for a variety of missions.
Key Features
Better detection in all directions
New cubic detector design allows for high performance in all directions.
3 x more sensitive gamma detection (G).
2 x more sensitive neutron detection (GN).
Advanced heuristics and hybrid identification techniques.
Sourceless stabilisation.
15% lighter weight than previous generation.
Power through your mission
Internal battery lasts up to 12 hrs; additional power options include disposable or rechargeable batteries that are hot swappable and user-replaceable.
Ready in ≤ 20 seconds from cold start.
Fully enclosed solid-state detector.
IP67-rated.
Balanced, ergonomic design.
Sunlight readable screen; visible through polarised glasses.
Situational awareness and support
Established FLIR GUI and 3-button control.
Remote data viewing, operation, and reach back.
Dual USB-C ports and FLIR’s trusted web interface.
FLIR RAD Mobile App.
Universal API enables integration with user deployed networks (Mobile Field Kit, ATAC, Sigma Edge, Safe Environment Gateway, etc.).
Built-in Bluetooth and GPS.
For more information, available options, or to get a quote, please visit the identiFinder R425 product page.
For more information, available options, or to get a quote, please visit the identiFinder R425 product page.
Specifications
Technology
Technology
Radionuclide identification device (RID); Gamma and Gamma/Neutron Models
Gamma Detector
45 x 45 x 45 mm cubic detector with silicon photomultiplier (SiPM)
Neutron Detector
27 x 58 x 5 mm moderated panels (2 each)
Energy Range
25 keV - 3 MeV
Gamma Sensitivity
1610 cps/μSv/h
Neutron Sensitivity
> 4 cps/nv
Gamma Spectrum Length
1024 channels
Dose Rate Range
100 nSv/h - 50 uSv/h ±10 %
Dose Rate Range ID Mode
0 nSv/h - 50 uSv/h
Overload Dose Rate Range
50 uSv/h - 10 mSv/h
Stabilization
Sourceless gain stabilisation
Linearisation
Real time linearization of gamma energy
Typical Resolution
≤7% FWHM at 662 keV (20°C)
Service Interval
5-year factory maintenance
Sampling & Analysis
Sample Introduction
Absorption of EM gamma and neutron emissions
Threats
Detects neutron and gamma radiation emitted from natural occurrences in the environment, special nuclear material, industrial, or medical material
