A compact radiation detection solution combining high-speed imaging at up to 99 fps with upgraded new-gen Timepix technology. It offers versatility for various detection applications, from material analysis to the space industry or electron microscopy.

Sensor Material: Si
Sensor Thickness: 100 / 300 / 500 μm for Si
Sensitive Area: 14 mm x 14 mm
Time Resolution:
Readout Speed:
Max frame rate: 99 fps
Dark current none
Number of Pixels: 256 x 256 pixels
Pixel Pitch: 55 μm
Counter bit depth: 10/ 14/ 18 bit
Readout chip type: Timepix2 (new-gen)

Dimensions 80 x 21 x 14 mm
Weight 37 g
Interface: USB 2.0 (Full-Speed)
Software: PIXET PRO

The MiniPIX SPRINTER device is controlled via a USB interface and is compatible with major operating systems such as MS Windows, Mac OS, and LINUX. The system includes free software, PIXET PRO, for detector operation, offering comprehensive functionality and ease of use.


Implemented on the International Space Station, NASA Artemis program, the Gateway Lunar Station or numerous satellites, our single particle detectors are revolutionizing space weather monitoring and radiation protection. Advacam's cameras ensure safer and more efficient missions. Boasting a compact size and low-power consumption, these detectors excel in particle identification, energy measurement, and even determining the direction from which particles originate.
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Non-destructive testing

Experience the power of our advanced cameras, delivering unmatched sensitivity, spatial resolution, and contrast. Our single-photon counting Cameras quickly uncover hidden details in various materials, from light composites to thick welded parts. The technology suppresses scattered radiation, capturing quality images in record time. The capabilities of our photon-counting X-ray imaging unveil internal material structures and spot defects like porosity, fiber orientation, micro-cracks, and delaminations with unparalleled precision. Elevate your NDT with our industry-leading solutions, setting new standards in defect detection.
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Material Analysis

Do you need to determine the material composition of your sample? Minerals, alloys, polymers, electronics, batteries, or pigments? Our cameras are based on cutting-edge single X-ray photon counting sensors, and each detected photon is processed individually. This approach also allows measuring the wavelength of photons. It brings unprecedented image quality and new possibilities, such as material-sensitive X-ray imaging. Moreover, our detectors enable fast and compact X-Ray Diffraction (XRD) and Crystallography solutions. XRD sample analysis is performed up to an order of magnitude faster than conventional systems. Spectral sensitivity provides a unique ability to inspect the sample surface and its interior (Energy dispersive XRD).
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Cancer research, bio-mechanics, and drug testing are just a few examples of X-ray imaging contributing to biology and medicine research. New photon-counting detectors represent a severe advancement to these applications compared to previously used methods. The energy sensitivity of modern cameras opens better possibilities for identifying individual types of tissue and contrast agents. That has significant consequences in various industries, for example, cancer research, where the tumor tissue can be better distinguished from the healthy one.
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ADVACAM offers cameras and solutions for multiple other applications, such as electron microscopy, crystallography, neutron imaging, localization of sources of ionizing radiation, charged particle tracking, and dosimetry for cancer therapy. In addition, many cameras are being used in basic research, such as at CERN's LHC accelerator, and for education on radiation and its properties in schools and universities.
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We have many references of implementing our cameras.

Discover all possibilities of Advacam cameras from real life case studies. Contact us and request our references.