Cardiac Ultrasound Transducer Phased Probe Biosound Biosound PA230E

Product Description

Cardiac Probe Biosound Biosound PA230E Multi-frequency phased ultrasound Transducer Hospital Use
 

1. Type: Phased array
2. Frequency:4-11MHz
3. Compatible with Mylab5/23/25/50, Megas,Caris Plus
4. Application: abdominal, cardiac, vascular, Transcranial
5. Condition: original, in good working condition
6. With 60 days warranty
 

Other Biosound Biosound probes we can offer:

 
 
 
Various Ultrasound Systems that we served:
 

 
 
Knowledge Point

The Esaote PA230E Phased Array transducer has a frequency range of 1.0 MHz. - 4.0 MHz. and supports the following applications: Cardiac. The Esaote PA230E transducer is compatible with: Esaote Technos; Esaote Caris Plus; Esaote MyLab 25; Esaote MyLab 30CV; Esaote MyLab 30 Gold; Esaote MyLab 40; Esaote MyLab 40CV; Esaote MyLab 50; Esaote MyLab 50XV; Esaote MyLab 70XV ultrasound systems.
 
 
3D
 
In the ultrasonic detector, the detected 3D object image is displayed as a 3Ddisplay method by plane display. Three-dimensional reconstruction refers to the use of ultra wide-band technology, based on a large number of high-definition two-dimensional image accurate data provided, to make the collected image signal data characteristic and systematic, to form a 3Ddisplay. Its unique control signal function will make a series of 3D images fully displayed on the screen.
 
 
3D image reconstruction
 
3D image reconstruction is a hot spot in ultrasound image processing and has become a development trend of ultrasound imaging. The first 3D ultrasound imaging commercial device uses mechanical scanning probes that oscillate in perpendicular directions to collect data of interest within 3 seconds and perform image reconstruction to generate sagittal, coronal, and cross-sectional images. These planes can be adjusted within the range of ultrasound information capacity, and multiple continuous images can be seen.
There are many problems to be solved in 3D ultrasound imaging, including data acquisition methods, real-time image reconstruction, and clinical reference value. At present, four data collection methods have emerged: parallel scanning, rotating scanning, sector scanning, and free-hand Scanning. The most eye-catching 3D ultrasound imaging is real-time 3D imaging. The key to real-time 3D imaging is to use parallel data processing and shorten data acquisition time. Acoustic pulses are emitted in several directions at the same time and simultaneously acquire and process multiple sound beam information of the scan line, which increases the complexity of the ultrasound imaging system.

Three-dimensional ultrasound: Based on the principle of two-dimensional imaging, background software is used to convert the image into a three-dimensional image. That is to use backend software to create three-dimensional images from many floor plans. It can clearly display the three-dimensional form, surface characteristics, and spatial position relationships of suspicious structures, and provide three-dimensional images of areas of interest.