iUS-Apsaras 3
iUS-Apsaras 3 Intelligent color ultrasonic diagnostic instrument

The IUS -Apsaras 3 adopts a new ergonomic design concept and provides a compact and fast ultrasonic diagnostic instrument. It is convenient to move and operate. The operation panel can be adjusted from top to bottom, left and right, and the monitor can rotate in all directions. These flexible and comfortable engineering designs make the IUS- Apsaras 3 suitable for various medical working environments.

Windows & Unix Operation System

Windows and UNIX dual operating systems make ultrasonic examination and data processing faster and more stable.

Automatic Aperture Technology

Intelligent aperture technology provides more organization information for computers.

eXtended Beam Former

Expand acoustic beam forming technology to provide more organization information of computer

eXtreme Focusing Technology

Intelligent limit focus technology ensures the uniform and fine image of the whole ultrasonic field

Rawdata RF Analysis New Platform

The new platform of original RF signal analysis leads ultrasound to enter the new field of parametric imaging original RF signal analysis: the original RF signal contains 100% acoustic signal of human tissue, which contains a large amount of data information and needs a powerful host processing system for fast calculation. The original RF signal analysis includes three aspects:
1、Precise control delay technology is adopted for signal transmission;
2、Analysis of broadband original signal;
3、Export the original RF analysis data.
It greatly improves the accuracy of measurement data.

"Apple" shape probe design, more scientific ergonomic design.

The array of pure crystal material matrix greatly reduces the noise of sound beam and improves the signal-to-noise ratio.

Microchip probe front-end crystal control, fast adaptive signal processing, improve imaging time resolution and sound beam tissue penetration.

With unparalleled intelligent design and advanced technology of pure crystal ultrasound imaging, IUS Apsaras 3 breaks through the operation mode of traditional ultrasound completely. Its personalized program design and workflow, as well as a wide range of user-defined one button optimization technology, effectively improves the doctor's all day work efficiency. It's easy to work with one key.

K key for short. In the ultrasonic real-time scanning mode, according to the user's current scanning conditions, the touch screen displays multi-functional touch key options automatically, and has user-defined mode. K key will display multiple function keys and operation controls in one key, effectively improving workflow, providing user scanning comfort, and providing work efficiency.

X-view imaging technology: MRI image processing system is based on the fast processing of each pixel of each image, which eliminates the speckle and noise of the image, greatly enhances the tissue boundary, improves the tissue clarity, and improves the diagnostic confidence of ultrasound doctors.

Directional fine flow imaging X-Flow

Combined with a new imaging platform and data operation method, based on the ultra wide screen Apple probe, the backscatter signal of blood flow is collected, especially for small blood flow, which has super sensitivity of blood flow Doppler signal.

M-type cardiac anatomy (CMM): M-type sampling line can rotate 360 degrees arbitrarily, and three free angle sampling lines can be set at the same time. At the same time, three lines of tissue M-type information in the same phase were displayed to realize comparative observation and measurement analysis in different cardiac segments and valves in the same cardiac cycle. It can be used in heart and abdomen probe (adult, fetal heart function evaluation).

Tissue Doppler imaging (TVM): the use of tissue motion Doppler frequency shift signal qualitative and quantitative display to calculate tissue movement, a variety of imaging modes, for qualitative and quantitative observation of tissue movement. The velocity of the heart is displayed on the two-dimensional image by color weighting, which can be applied to conventional heart probe and transesophageal heart probe. It has a variety of application modes: B, M, PW, and can measure and analyze the velocity and acceleration of the chamber wall.

Accurate measurement technique of the internal middle membrane of blood vessel (QIMT): Based on the original ultrasonic radio frequency signal, the thickness of the internal middle membrane and the internal diameter of the common carotid artery at six time points in the 1-6 cardiac cycle are measured automatically in real-time B mode, and the average value and the standard difference are calculated. The measurement accuracy is up to micron level, which is not affected by the change of image gain and detection depth. In the report mode, the left and right blood vessels can be compared, compared with the database and the expected value, so as to evaluate the age of blood vessels.

FWI module: 4-parameter (HC / FL / BPD / AC) measurement, automatic analysis of fetal weight index, evaluation of the accuracy of measurement data, guidance and help doctors get more accurate measurement data.

3D / 4D volume imaging technology: abdominal convex array volume probe is used for whole body application, and equipped with professional volume imaging, such as three-dimensional cross imaging, fault layer thickness imaging, CT mode tiling imaging, automatic contour tracking and volume quantitative, volume color quantitative, etc.