Equipped with outstanding hardware architecture and a high-speed information transmission module, integrating advanced probe configuration and technology, compared to previous ultrasound imaging systems, it presents clearer, more realistic, more responsive, and smoother ultrasound images.
Simple and Efficient
The integral main structure design, stylish and minimalist, is sturdy and durable, making instrument operation simpler and more efficient. It offers a wide range of imaging functions and comprehensive clinical solutions, further enhancing the human-machine interaction experience and significantly improving the efficiency of medical personnel.
Spectrum envelope function
Spatial composite Imaging
Trapezoidal imaging
外观展示
Exterior Design
Efficient
Technical Features
Sturdy and Durable, Stylish and Minimalist
21.5-inch ultra-clear medical display
Flexible and convenient adjustable arm
Integrated backlit silicone keyboard
Fully Activated Three Probe Interfaces
Spatial composite Imaging
Ultrasound spatial compound imaging can improve contrast resolution, fine resolution, and spatial resolution; enhance the continuity of echoes at tissue and lesion interfaces, and reduce various artifacts (mirror reflections, speckles, scattering, attenuation, contrast differences
Probe
Probe Application of High-End Materials
The probe is made of composite materials, providing greater penetration, higher resolution, uniform and unaltered images, with performance improvements 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, showcasing the high-resolution images brought by the high-density probe and perfectly presenting image details, thereby increasing clinical diagnostic accuracy.
Lossless Signal Transmission and Reception
High-Precision Analog-to-Digital Conversion
Space-Time Wave Velocity Reconstruction
Image Post-processing
High-Resolution Images
Exclusive 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 full 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, and increasing the accuracy of clinical diagnosis.
