SonoAce X6
Powerful System with Compact Design
The SonoAce X6 ultrasound system, built upon innovative digital beamforming process,
combines slim ergonomic design with a variety of advanced imaging functions.
Features
The SonoAce X6 ultrasound system, built upon innovative digital beamforming process, combines slim ergonomic design with a variety of advanced imaging functions.
Full Spectrum Imaging™ (FSI™)
Full Spectrum Imaging™ (FSI™) produces the penetration capabilities associated with lower frequencies, while still maintaining the fine pixel uniformity associated with higher frequencies. This combination consistently delivers superior quality images, even in the most challenging diagnostic circumstances. The resulting clarity delivers improvements in accuracy and efficiency for greater confidence in diagnostic procedures.
Speckle Reduction Filter™ (SRF™)
Speckle Reduction Filter™ (SRF™) improves scan quality by reducing or eliminating the unnecessary echoes from ultrasound images. Flexibility is enhanced via the user’s ability to select the degree to which the reduction is implemented, enabling greater control of the process.
QuickScan™
The QuickScan™ feature has been designed to maximise workflow efficiency by automatically optimising key imaging parameters at the touch of a button. The resulting increase in efficiency allows establishments to offer patients an improved service with faster and more accurate diagnosis. This reliable and safe system helps clinics or hospitals deliver a superior patient experience.
Harmonic Imaging
Harmonic Imaging is a technique that records higher frequency information, resulting in greater resolution and fewer artifacts.
Trapezoidal Imaging
The SonoAce X6 includes a Trapezoidal Imaging feature to expand the ultrasound field of view. It therefore creates improved visualisation of superficial structures such as glands, along with reducing blind areas in biopsy procedures. Using this mode enables medical professionals to obtain a comprehensive overview containing more accurate diagnostic information in a single image.