Probe
The probe is made of high-end materials.
The probe is made of composite materials, offering greater penetration, higher resolution, uniform and unaltered images, with a performance improvement of over 60% compared to traditional piezoelectric ceramic materials.
Secondary cutting allows for complete control of the entire chip vibration process, thereby reducing sidelobe artifacts, enhancing the resolution of fine tissue details. Additionally, it sharpens the boundaries between adjacent strong echo reflectors, fully showcasing the high-resolution images brought by the high-density probe, perfectly presenting image details, and increasing the accuracy of clinical diagnosis.
Lossless Signal Transmission and Reception
High-Precision Analog-to-Digital Conversion
Probes that can be Attached
Subarray Technology
A dedicated high-density probe, employing a completely new array design technology and an exclusive subarray technology, undergoes secondary cutting of individual transducers, allowing for complete control over the transducer's vibration throughout the process. This reduces sidelobe artifacts, enhances the resolution of fine tissue details, and sharpens the boundaries between adjacent strong echo reflectors. It fully showcases the high-resolution images brought by the high-density probe, perfectly presenting image details, thereby increasing the accuracy of clinical diagnosis.
