Innovation

Introducing the all-new upgraded HI platform with an intelligent dual-core CPU, featuring 16 times the beam parallel processing capability. The increased data volume, coupled with the lateral coherent beamforming algorithm, significantly enhances image quality. The full-field focusing imaging ensures improved focus in every region of high frame rate images, achieving consistent overall resolution. The phase blood flow imaging technology utilizes temporal and spatial parameter information to enhance the capture of low-speed blood flow and moving tissues, effectively suppressing non-blood flow signal interference.


16

16x

Beam reconstruction parallel capability

400

400%

Data transmission rate

1.5

1.5GB

Ms-level data storage volume


Parallel Beam Processing


Transverse Coherent Reconstruction


Phase Blood Flow

Traditional


Transverse Coherent Reconstruction

Limited by ultrasound signal’ s scattering, the resolution outside focus area is poor and pixel is stretched.

With total field focusing and self-adaptive imaging technique, transverse coherent reconstruction algorithm can effectively increase the image resolution and ensure the uniformity of the whole field image.

Increase the image quality from near to far field, easy to capture small details and avoid distortion of tissue. Especially useful for imaging challenging patients.

Phase Blood Flow

•Increase the sensibility of low speed flow
•Effectively suppress non-blood flow signals, such as noise, tissue movement, etc.
•Effectively avoid reducing the image quality in B mode when enabling the color mode

•Increase the sensibility of low speed flow
•Effectively suppress non-blood flow signals, such as noise, tissue movement, etc.
•Effectively avoid reducing the image quality in B mode when enabling the color mode

Based on simple time dimension, hard to detect low speed flow

Based on time, spatial dimension and self adaptive parameters, easy to capture weak signal

Automatically detect and suppress the speckle noise based on multidimension algorithm.Acquire and enhance tissue details from different directions, easily capture sub-millimeter level lesion or large organ border.


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Bonding Process

Bonding Process

By Uniform Bonding process, adhesive to interconnect ceramic and lead is well controlled (maximum thickness: 1um) to improve performance uniformity among elements.

Conventional cutting processes

μm-class anti-chip cutting technology

Triple Matching Layers

Triple Matching Layers

The three-layer matching layer technology can enhance sound energy conversion efficiency, reduce energy loss during propagation, improve bandwidth, and signal-to-noise ratio, thereby achieving better image quality.

Micro Elements

Micro Elements

By segmenting a single transducer element into multiple sub-elements (minimum size: 75um), it is possible to achieve more precise control over the vibration modes of each sub-element. This, in turn, leads to improved efficiency in converting electrical signals to sound waves within the piezoelectric crystals. As a result, the transducer's bandwidth can be increased by 15%, and the sensitivity can be enhanced by 6dB.

Single crystal transducers helps to acquire more sensitive andaccurate signal detection, produce better resolution and penetration.

When the power supply voltage is unstable, it is easy to generate interference signals. After targeted filtering processing of the ultrasound mainframe power supply, the interference caused by the circuit signals has been effectively addressed.

Focus & Fusion Healthcare possess unique advantage technology in the production and manufacturing process of probes. By improving the manufacturing process of the core elements, such as the piezoelectric materials, and implementing comprehensive protection measures against electromagnetic radiation, we effectively shield the interference signals coming to the acoustic head, achieving efficient probe filtering.

Electromagnetic interference can enter the ultrasound system not only through the power supply and probes but also via electromagnetic signals present in the air, which can affect the mainboard circuit. To address this issue, Polyfusion Medical adopts aerospace-grade electromagnetic absorption materials in the internal hardware circuit of the main unit, providing direct physical filtering against strong electromagnetic wave interference.

By incorporating targeted filtering algorithms into the system, it is possible to effectively avoid strong electromagnetic interference during the radiofrequency ablation process.


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