Skip to product information
1 of 4

GlobalHeathcareMedical

Zoncare ViV80 Ultrasound

Zoncare ViV80 Ultrasound

Regular price $0.00 USD
Regular price Sale price $0.00 USD
Sale Sold out
Shipping calculated at checkout.

ViV 80 is based on Zoncare's brand-new uSeed metadata ultra-fast imaging technology platform, adopts CPU+GPU dual-processor heterogeneous computing technology, which breaks through the technical challenge of high loss in front-end signal processing of traditional ultrasound platforms, and has higher hardware circuit integration and better performance,stronger and faster response; At the same time, ViV 80 is equipped with a new generation of pure wave single-crystal probe and a broadband high-frequency probe dedicated to breast&thyroid, which can truly reflect the original appearance of tissues and represent anatomical details.

Single Crystal Multi-matching Layer Probe

Applied to the Abdomen& Cardiology, provide wider bandwidth, stronger penetration and higher resolution, effectively overcome the artifacts produced by the endocardium and subtle tissue structures, and gain insight into the edge between blood flow and tissue. Provide better probe solutions for the difficult patients.

 

Fundamental and Harmonic Fusion Imaging

Combining the advantages of high detail resolution of tissue harmonic imaging and deep penetration of fundamental wave imaging, the overall image quality is improved.

 

Real-time Elastography

The Real-time Elastography technology based on acoustic energy and shear wave velocity can provide fast, accurate and better penetrating real-time quantitative elastic images, and provide clinical quantitative evaluation of tissue soft and hard lesions.

 

Nonlinear Parametric Imaging

Quantitative imaging of non-linear parameters inside the tissue can be performed, and it has good clinical application value in the identification of liver diseases.

 

3D Spectral Imaging

Through the multi-sampling gate three-dimensional Doppler spectrum technology, it can display the velocity waveform and three-dimensional spectrum of the blood vessel section, and provide accurate flow calculation.

View full details