Descriptions
The detector is composed of multiple Medipix3 electronic tiles, each with a 256 × 256 pixel matrix, seamlessly attached to silicon or CdTe sensors.
Thanks to its patented near gapless tiling, the entire area is fully sensitive, ensuring uniform image acquisition without significant dead zones. (Only up to 4 pixels) Every pixel is equipped with two integrated 12-bit digital counters and two energy discrimination thresholds, allowing for precise particle counting. Counters can also be combined into a single 24-bit unit to provide an extended dynamic range. This particle-counting approach eliminates additional electronic noise, enabling exceptionally high-contrast X-ray images where even subtle structures such as plastics or soft tissues can be clearly visualized.
The industrial optimization of WidePIX sets it apart:
- Durability – reinforced construction and electronics optimized for stable operation in continuous industrial workflows.
- Universal integration – compact form factor makes it smaller, easier to handle, and simple to install into tight machine spaces.
- Simplified connectivity – one Ethernet cable delivers both data and power, providing a true plug-and-play experience.
- Harsh environment readiness – improved optimalization for vibration resistance and stable long-term performance in demanding setups.
- Upgraded water-cooling interface – redesigned for industrial convenience, accessible either from the front or from the sides of the detector, enabling flexible installation and maintenance.
Spectral imaging capabilities remain at the heart of the system: Medipix3’s dual-threshold energy discrimination enables spectral X-ray imaging, allowing different materials in a sample to be distinguished by their attenuation properties. The device supports energy spectra measurements from 5 keV upwards for Si and 8 keV upwards for CdTe.
Additionally, the Charge Summing Mode in the pixel electronics corrects for inter-pixel charge sharing, significantly enhancing the spectral accuracy and the quality of per-pixel spectra.
Whether used in CT scanners or in continuous scanning applications with TDI mode, WidePIX delivers a reliable, high-resolution imaging solution with the robustness and flexibility required for modern industry.
Applications
Non-Destructive Testing
ADVACAM’s X-ray digital radiography imaging detectors are an ideal solution for many Non-Destructive Testing (NDT) applications. The photon counting detectors provide improved sensitivity, spatial resolution, contrast and signal-to-noise ratio. The broad range of detectable X-ray energy starting from 5 keV up to hundreds of keV or even MeV let the detectors capture from very light composite materials up to thick welded parts.
In addition, the energy discrimination helps suppress the scattered radiation and improving the contrast of measured images. NDT specialists and service providing companies can extend the portfolio of customers by those whose products could not be inspected by X-ray radiography in the past. Our new X-ray imaging technologies are useful for inspecting composite materials in the aerospace industry.
Mining and Geology
Material discriminating X-ray imaging of ore
The energy sensitive photon counting detectors can help in this area thanks to the option of material identification in images. Drill cores from exploration bore holes can be now analysed in-situ identifying different minerals and providing immediate feedback for further exploration.
Online monitoring of technological processes during mineral processing is another very important area where X-ray material resolved imaging plays an important role. It helps to increase effectivity of processing and reduce energy consumption leading not only to reduced costs, but also to lower environmental effects.
Spectral Imaging Of A Mouse
Cancer research, biomechanics, and drug testing are just a few examples of where X-ray imaging contributes to research in biology and medicine. New photon counting detectors represent a serious advancement for these applications, compared to previously used synchrotrons. The energy sensitivity of modern cameras opens better possibilities to identify individual types of tissue. That has important consequences in various industries, for example cancer research, where the tumour tissue can be better distinguished from the healthy one.
Spectral Radiography
Material discriminating spectral imaging of a mouse. Colours represent different tissue types.
The high sensitivity of photon counting detectors to low energy photons makes them useful for imaging low X-ray attenuating objects (i.e. light objects, such as tissue.) Thus, these detectors are ideal for bio-related applications. The low X-ray energy sensitivity (starting from ~3 keV) together with the high dynamic range reveals features in samples that remain hidden to other types of X-ray imaging detectors.
Spectral Computed Tomography
Spectral computed tomography slices where each colour represents a tissue type.
The spectral radiography can be extended to 3D by means of computed tomography. This makes it possible to recognize different types of tissue in real form. Again, this level of information can be incredibly helpful for cancer treatment research, as it gives better data for irradiation planning.
Authentication of art
Study and characterization of art pieces, namely paintings, using X-ray imaging is becoming an increasingly important area. It is useful for galleries, museums and collectors to improve conservation and preservation methods. It is important for art buyers to reliably authenticate the works. The advanced X-ray imaging techniques provide detailed data for insurance companies to assess risks involved in transportation of art.
The spectral imaging capability of Advacam’s detectors enables identification of different pigments based on their spectral responses. A “colour” X-ray image is then created where the colours are associated to different pigments identified in the painting. The recognition of pigments even in invisible lower layers can serve as an important clue in the process of art authentication.
Advacam’s spin-off company InsightArt
Advacam has transferred the art inspection offering to its spin-off company InsightArt. The goal of the company is to be one-stop shop for the art collectors, auctions and galleries. The company analysis paintings and other pieces of art using advanced X-ray imaging techniques combined with the conventional ones. The combination of the techniques allows unprecedented technique for studying art and identification of different types of materials and pigments in the images.
