Flir T1020 high resolution thermal camera

Keywords:
Thermal imaging, thermography, non-destructive testing, non-contact testing

Field of Science:
Diagnostic and measurement technologies, Smart environments and information technology, New materials for high-tech, Technologies for sustainable development and energy
Technical specification:

Thermal imager detector pixel count 1024 x 768;

Detector type: non-refrigerated microbolometer;

Thermal sensitivity <20 mK at +30 °C;

Lens 28° x 21°;

Minimum focal length 40 cm;

Minimum focal length 36 mm;

Spatial resolution with 28° lens 0.47 mrad;

Automatic lens recognition and calibration according to the lens used;

Thermal imager frame rate 30 Hz;

Automatic and manual focus;

Digital zoom 8 times;

The thermal imager is equipped with a special algorithm for noise filtering;

Detector detects wavelengths of 7.5 ... 14 μm;

The thermal imager has a touch-sensitive colour display;

Thermal imager with automatic image orientation (horizontal/vertical);

The device shall have an integrated viewfinder;

Has an integrated digital video camera with a resolution of 5 megapixels;

It has a mode that allows you to see the clear outline of objects and to read notes in the dark;

Temperature measurement range -40 °C ... +2000 °C;

Accuracy ±1 °C over a range of +5 ... +150 °C;

Accuracy ±2 °C or ±2 % over the range +25 ... +2000 °; 

Usage area:
1. Applied research on the physical-mechanical properties of materials, their changes and the detection of internal defects, using non-destructive material science, diagnostic and measurement methods 2. Applied research on non-destructive testing methods for the prevention of technological accidents in the oil and gas industry, transport (railways, bridges), energy (nuclear, thermal, water and wind), aviation and space sectors 3.Applied research on the application of thermographic diagnostic methods in medicine 4.Development of prototypes of thermal imaging quality control systems for monitoring technological processes in production 5.Development of prototypes of measurement, non-destructive testing and monitoring systems to ensure the safety of industrial facilities and large engineering structures 6. Prototyping of ultrasonic transducers for medical and technical diagnostics 7.Technical feasibility studies for the application of new non-destructive testing and measurement methods for quality control of industrial products and monitoring of production processes
Request form