Our dual energy detectors provide unprecedented detection of low-density contaminants in food. Powered by our Advanced Material Discrimination proprietary software, the DXD+ delivers significantly improved inspection capabilities compared with single energy technology. Browse the latest in dual energy advancements to see how they could benefit your business.
X12 X-ray Inspection System
High-performance x-ray inspection system that delivers improved product quality and increased product safety. The X12 system is the perfect solution for small-medium food and pharmaceutical products.
X32 X-ray Inspection System
An advanced x-ray inspection system available in standard and custom configurations, with single or multi-lane capabilities and integrity checks for outstanding detection performance.
X52 X-ray Inspection System
A premium dual energy x-ray inspection system offering outstanding detection of hard-to-find, low density contaminants, in a variety of applications. Available in standard and custom configurations.
X34C Series, System
A unique solution which inspects individually wrapped food or pharmaceutical products at high line speeds. The X34C combines a short total footprint with an optimised focal distance to enhance detection of non-conforming products and reducing waste.
X16 X-ray Inspection System
The X16 system is the prime solution for medium-large food, and pharmaceutical products. This innovative x-ray inspection system delivers enhanced product quality and improved product safety.
X36.2 X-ray Inspection System
The X36.2 is a state-of-the-art x-ray inspection system offering both single and multi-lane capabilities, a wide range of quality checks and standard or custom line lengths for a superb product inspection experience.
We support and service your product inspection equipment through its entire lifecycle, from installation to preventive maintenance and calibration to equipment repair.
Dual energy x-ray inspection systems use advanced discrimination algorithms to detect two different x-ray energy levels. By comparing the two energy levels, dual energy systems can identify material information within a product, largely removing the product noise, allowing contaminants to be detected more easily and more accurately.
In contrast, single energy systems produce a single x-ray image that is compared to a pre-determined acceptance standard. If the material information does not match the acceptance standard, the product is rejected.
Dual energy x-ray technology is well suited to the same applications as single energy. However, dual energy inspection is also recommended for low-density, hard to find contaminants such as non-calcified bone, low mineral glass or rubber all located within complex, overlapping shapes that have a mixed non-uniform density.
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Dual energy inspection works very well at detecting physical contaminants that have a lower, or similar, density to the product (for example: low-density bones in chicken), as well as contaminants that are hidden within products that create complex x-ray images with varying densities (for example: glass in a bag of hashbrown potatoes).
Other contaminants that can often be identified by dual energy solutions include non-calcified bone, low mineral glass and rubber.
There are two types of dual energy: Standard Dual Energy X-ray Detection and Advanced Dual Energy X-ray Detection.
Standard dual energy uses a standard x-ray generator coupled with dual energy detector hardware. The dual energy detector allows for the comparison of different materials within a product being inspected. This material data, together with our advanced image analysis software, leads to improved contamination detection performance for overlapping products, or with products with low-density contaminants.
Advanced dual energy uses a standard x-ray generator coupled with dual energy detector hardware featuring a unique diode design architecture. This unique diode design architecture enables the collection of even more detailed data about the different materials within the product being inspected. More data allows for more detailed image processing by the image analysis software, leading to an even greater contamination detection performance over standard dual energy.