5D Color Doppler Ultrasound System XR80A
  • 5D Color Doppler Ultrasound System XR80A
5D Color Doppler Ultrasound System XR80A

5D Color Doppler Ultrasound System XR80A

Item #: AM-COR-0450-ZP

Model: XR80A

Regulatory Status: Approved by Regulations on the Supervision and Administration of Medical Devices.

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Product Details

Application: Medical Use

Features: I. High-tech platform
The XR80A transmits ultrasonic waves from a new single-crystal S-Vue ™ probe, enters the data signal through the needleless probe interface, and then passes through the S-Vision ™ beamformer, fine imaging technology, HDVI high-definition volume imaging technology, integrated multi-unit processing system, etc. The most advanced signal processing platform in the industry has been built. The rich and pure image information obtained is finally presented to the doctor using the most professional LED display. The real, three-dimensional, and life-like images make doctors more confident in diagnosis.

Rich image optimization technology
FSI frequency composite imaging technology
After processing the signals of the far, middle and near fields through different frequencies, they are fused into a uniform and clear image of the entire field, while improving the penetration and resolution, and significantly reducing speckle and artifacts.

Harmonic tissue harmonic imaging
Due to the nonlinear effects of harmonics, the energy of harmonics is significantly enhanced in a certain depth range, which helps to improve the sound-to-noise ratio; because the frequency of harmonics is higher than the fundamental wave, it is more sensitive to low-speed blood flow detection. Enhanced display of blood in the heart cavity and blood vessels.
PIV Pulsed Inverse Harmonic Imaging
A technology that emits a normal-phase pulse while transmitting a reverse-phase pulse signal having the same amplitude and a 180-degree phase difference, and then adding the two to obtain a harmonic image. As a result, the addition of a pair of positive and negative pulse signals becomes zero, but the in-phase harmonic signals add to each other, so the signal-to-noise ratio is significantly improved, and the image quality is improved.
S-FLOW Fine Blood Flow Imaging
cccc detects tiny blood vessels and low-speed blood flow signals through innovative ultra-high-sensitivity color Doppler. This advanced Doppler technology can make blood flow lifelike and more realistic; the use of umbilical artery, thyroid adenoma, and renal blood vessels Obvious; and provide the most accurate diagnosis without being affected by the patient's physiology.

Third, advanced probe technology
Single crystal technology and matrix technology
The internal structure is very uniform, which can make the direction of material polarization highly consistent, greatly improving the efficiency of acoustic-electric conversion, minimizing the loss of acoustic energy, bringing richer tissue information and better image quality.

210-degree ultra-wide-angle intracavity probe
Provides 210-degree ultra-wide angle / high scan line density high-quality images, effectively improving work efficiency; especially suitable for observing the left and right symmetry of the fallopian tube and ovary

High-frequency volume probe
192 elements, applied to breast, thyroid, subcutaneous tissue, blood vessels, nerves and other tissue three-dimensional ultrasound examination and analysis, to obtain 2D cross-sections not easy to obtain, easy diagnosis, improve inspection efficiency.

Fourth, a full range of functional software packages
Trapezoidal Imaging
It breaks through the field of view of the linear array probe, expands convexity, and increases the scanning angle. Increasing the display area in the middle and far field areas makes it easier to find lesions, which is especially beneficial to the inspection of breast, thyroid, and skeletal muscle.

Panoramic View
Can continuously obtain a series of cut planes, automatically and quickly stitch seamlessly into a whole image, used to observe larger tissues or lesions
1) Support angular scanning
2) Can choose segment image comparison analysis or independent analysis
3) Can be arbitrarily rotated, enlarged and measured.
Auto IMT
By measuring the thickness of the vascular intima, it can effectively evaluate, analyze and predict the risk of cardiovascular and cerebrovascular diseases.

1) Freely choose between automatic and manual methods
2) The near and far field measurement results are automatically displayed at the same time, and the analysis report is detailed
3) Custom edit analysis based on population, age, gender, region, etc.
Low MI contrast imaging
Supports low-mechanical index contrast imaging, that is, imaging of contrast agent reflection signals obtained by ultrasound.

ElastoScan elastography
Deformation of the tissue due to external pressure: normal tissue> malignant tissue, which can show that the normal and malignant tissues have different degrees of deformation and are displayed in different colors using coding technology; the softness and hardness of the tissues are compared for comparison

E-Breast ™
Selecting a region of interest once can be quickly and easily checked, and the operator can obtain a value between the target strain value and the reference strain value.

E-Thyroid ™ is a technique for acquiring thyroid elastography without external compression, using CCA pulsation and quantitative indicators to determine the likelihood of a malignant tumor.
Elastoscan ™ Cervical Elasticity
With slight pressure from the probe, judge the condition based on the hardness of the cervical and prostate tissues, such as whether it is approaching the due date, to avoid the discomfort of pregnant women during cervical palpation.

High-resolution images for increased diagnostic confidence

S-Vision Beamformer

The S-vision beamformer reduces noise and artifacts through an advanced digital filtering system, providing high-contrast, high-resolution ultrasound images

S-Vision imaging engine

The XR80A uses the S-Vision imaging engine to effectively remove noise using digital signals, and provides ultrasound images with high resolution and high tissue uniformity in various applications.

S-Vue Monocrystalline Probe Technology

The S-Vue single crystal probe has a wider frequency band and higher sensitivity and penetration. The entire field image is uniform, and the overall image is uniform, which comprehensively solves the problem of diagnosis of difficult imaging cases. Perfectly applied ergonomically designed probe, with beautiful radians, light weight, and effective relief of operating fatigue.

Interventional ultrasound, essential weapon

S-Fusion (Intelligent Fusion Imaging)

S-Fusion can synchronize 3D data from other images with real-time ultrasound to show the location of the lesion. Fast fusion speed and high accuracy are the advantages of Samsung S-Fusion, which enables the ultrasound system to be applied to many cutting-edge clinical projects.

S-Fusion has different methods such as automatic registration and manual registration. The fusion speed is fast and it is widely used, covering the fields from clinical diagnosis, intervention to treatment, etc. to improve accuracy.

S-Tracking (smart tracking navigation)

Intelligent S-Tracking technology can effectively improve puncture accuracy and enhance operator confidence. S-Tracking has two navigation options: Clear Track uses electromagnetic sensing technology to track the position of the needle tip during puncture and guide the puncture. Virtual Track always attaches an electromagnetic sensor to a common puncture needle for real-time navigation during the puncture process.

S-Shearwave (smart shear wave elastography)

S-Shearwave detects the propagation speed of the shear wave in the target diseased tissue and displays its elasticity in a quantitative form (kPa or m / s), and also displays the measurement reliability index (RMI). S-Shearwave also provides Variance range (VR), which visually shows the uniformity of tissue hardness in the region of interest (ROI). A large variance range means that the uniformity of composition hardness is worse. In the data file window, the user can edit and correct each measurement value according to the measurement reliability index (rmi). Through quantitative analysis of liver tissue characteristics. S-Shearwave can guide liver biopsy.

CEUS + (enhanced contrast imaging)

Enhanced contrast imaging takes full advantage of the unique characteristics of contrast agents. When using a low mechanical index (Low Mi) contrast mode, the contrast agent microbubbles will reflect the fundamental and harmonic signals. The double contrast mode can better observe the contrast agent perfusion state.

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