eM6C G2 Probe: GE’s 4D Electronic Convex Probe for Advanced Imaging
The GE eM6C G2 represents the cutting edge of ultrasound imaging, specially designed to deliver exceptional image quality in abdominal, obstetric, gynecological, and fetal examinations. This wide-band convex probe is equipped with Active Full Electronic Matrix Array technology, which enables ultra-fast volume rates and superior resolution compared to traditional mechanical probes.
With a field of view of 85° x 90°, the eM6C G2 probe excels in capturing high-quality images in real-time, even in the most complex clinical settings, such as fetal echocardiography. The electronic matrix technology allows for 4D volume imaging with incredible resolution, providing up to 29 times more data than conventional mechanical probes.
The eM6C G2 probe is designed to offer a seamless user experience thanks to its speed and flexibility. Healthcare professionals benefit from high volume rates, essential for quick and accurate assessments. It is capable of conducting real-time examinations of the abdominal cavity, fetal system, and gynecological organs with high precision. Its wide frequency range of 2 to 7 MHz makes it suitable for a variety of exams, from routine obstetrics to more complex fetal echocardiography studies.
The technology in the eM6C G2 probe facilitates real-time 4D imaging, a valuable feature in the field of maternal-fetal medicine. With its enhanced performance, this probe is a reference for healthcare institutions aiming to improve the efficiency of their examinations while ensuring unmatched results.
One of the main advantages of this probe is its ability to adapt to the specific needs of various types of exams. Its advanced electronic scanning technology enables the capture of detailed images with great speed, making it easier to examine patients, even in situations where image clarity is critical. Whether for routine examinations or more demanding clinical cases, the eM6C G2 probe meets the expectations of professionals in terms of precision and execution speed.
