A revolutionary technology – testo SuperResolution
testo SuperResolution technology is always sought when you need the greatest possible detail in the images for your professional thermographic analysis.
The thermal imager's infrared images have a considerably higher resolution and greater detail. And importantly: testo SuperResolution technology always records genuine temperature measuring values – there are no artificial intermediate values projected!
This means testo SuperResolution offers the option of recording more temperature measurement values with the thermal imager – without the need for larger and more expensive detectors.
In building thermography, testo SuperResolution technology is ideally suited to fast and easy detection of building damage. In addition, energy losses in the heating or air conditioning of buildings can be analyzed using high-resolution thermal images. The high level of detail in the image makes inadequate insulation, resulting heat losses or construction defects clearly visible. Leakages can also be displayed precisely in the thermal image using testo SuperResolution technology.
In industrial thermography
testo SuperResolution also plays an important role in industrial maintenance, above all in the high-resolution early detection of imminent damage in production-related plant components. In the case of mechanical components too, the detection of thermal irregularities (e.g. due to friction or incorrect adjustment) can indicate an elevated level of stress.
In research and development
In research and development, the geometrical resolution of the the thermal image is often crucial. This is improved by a factor of 1.6 by testo SuperResolution technology. This means the size of the smallest measurable object is also reduced, which enables the measurement of the smallest structures. With testo 890 and testo SuperResolution, the tiniest structures up to 0.07 mm can be thermographically recorded in high resolution. testo SuperResolution is therefore always particularly important when very small objects need to be thermographically recorded (e.g. a circuit board), or when you need to explore the smallest details in the thermal image after measurement, using the analysis software testoIRSoft on the PC. At the same time, more details can be identified with images captured from a great distance.