Probe
High-end materials
The probe is made from composite materials, offering superior penetration and higher resolution. The images are consistently uniform without any loss of detail, providing more than a 60% improvement in performance compared to traditional piezoelectric ceramic materials.
Sub-cutting allows full control of the entire chip vibration process, reducing sidelobe artifacts and enhancing the resolution of fine tissue structures. Moreover, it sharpens the boundaries between adjacent strong echo reflectors, effectively showcasing the high-resolution images brought by the high-density probe, thus presenting image details perfectly and increasing the accuracy of clinical diagnosis.
Lossless signal transmission and reception
High-precision mode conversion
Space-time wave speed reconstruction
The unique sub-array element technology
Delivering high-resolution images
Featuring a dedicated high-density probe with a brand-new array design technology and a unique sub-array element technology, this probe undergoes secondary cutting of independent transducers, allowing complete control of the transducer's entire vibration process. This significantly reduces sidelobe artifacts and enhances the resolution for fine tissue structures. Furthermore, it sharpens the boundaries between adjacent strong echo reflectors, fully showcasing the high-resolution images delivered by the high-density probe. This perfect presentation of image details contributes to increased clinical diagnostic accuracy.
