Detail Information |
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Category: | Mylab 40 Part | Description: | Mainboard |
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Service: | Ultrasound Replace Or Repair | Warranty: | 60 Days/ 90 Days |
Condition: | Original Biosound | Applications: | Control Other Components In The System |
High Light: | Esaote Biosound MyLab 40 Mainboard,MyLab 40 Mainboard 9501361,Esaote Biosound MyLab 40 Mainboard 9501361 |
Product Description
Esaote Biosound MyLab 40 Mainboard 9501361
1. Part number: 9501361
2. Compatible with Biosound MyLab 40
3. Condition: Original and used,in good working condition
4. With 60 days warranty and 2-4 days lead time
The Mainboard
As the core component of the Mylab 40 ultrasonic diagnostic system, Mylab 40 mainboard is responsible for important tasks such as control, data processing and communication of the entire system. It integrates various necessary electronic components and interfaces to ensure that the system can operate stably and meet various diagnostic needs.
The Function of the Mainboard
1.System control: The mainboard is the "brain" of the Mylab 40 system, responsible for receiving operating instructions from the user interface and controlling the coordination of other components in the system (such as ultrasound probes, image processing units, displays, etc.).
2.Data processing: The original image data collected by the ultrasound probe needs to be digitized, filtered, enhanced, etc. through the processing chip on the motherboard to improve image quality and diagnostic accuracy.
3.Communication interface: A variety of communication interfaces are usually integrated on the motherboard to realize data transmission between components within the system, as well as connection and communication between the system and external devices (such as printers, storage devices, etc.).
4.Power management: The motherboard is also responsible for the system's power management, including power distribution, voltage regulation, and power consumption control, to ensure that the system can operate stably under different workloads.
Technical characteristics
1.High performance: In order to adapt to the high-definition and real-time requirements of ultrasonic diagnostic systems, Mylab 40 mainboard is likely to use high-performance processing chips and storage devices to ensure fast response and efficient operation of the system.
2.Stability: Ultrasound diagnostic systems usually need to operate continuously for a long time in medical environments, so the motherboard needs to have high stability and reliability to ensure that the system can continue to provide accurate diagnostic support.
3.Scalability: With the continuous development of medical technology, the functions and application scope of ultrasound diagnostic systems are also constantly expanding. Therefore, the Mylab 40 mainboard may have a modular design and scalable interfaces to facilitate future upgrades or expansion of system capabilities.
Precautions
1.Since the specific specifications and functions of Mylab 40 mainboard may vary depending on the product model, version or manufacturer, the above introduction is only a general overview.
2.If you need to obtain the detailed specifications and function introduction of Mylab 40 mainboard, it is recommended to directly consult the official product manual and technical specification sheet of Mylab 40 or contact the manufacturer's customer service department.
Related Imformation
Mylab 40:
As an advanced whole-body color Doppler ultrasound diagnostic system, MyLab™40 has become an important diagnostic tool in the medical field with its high-quality imaging technology, rich clinical applications and convenient operating functions.
1. Technical Characteristics
19” high-performance LCD monitor: Increase operator comfort and reduce visual fatigue.
Whole body tissue enhanced imaging technology (TEI): Using ultra-fine line scanning technology, combined with ultra-wide dynamic range processing and natural harmonic (THI) imaging, it comprehensively improves image clarity and fineness, eliminates speckle noise, and brightens the image. This technology improves the spatial resolution of images and greatly improves the ability to detect small lesions and early lesions.
Ultra-high frequency imaging technology (XHF): New wafer cutting technology makes ultra-high frequency probes and their imaging technology possible. Esaote is a leader in the field of high-frequency and ultra-high-frequency ultrasound. Currently, the high-frequency bandwidth operates between 6-20MHz, and the highest two-dimensional imaging center frequency can reach 18MHz. It provides clinical microsurgery and various glands (such as breast). Excellent detail display.
Whole-body wide-view imaging technology (Vpan): Through wide-view scanning technology, grayscale images and color images can be displayed over a longer range of anatomical structures, and ultra-wide field of view ultrasound images can be obtained. It is an absolute excellence in ultrasound examination and diagnosis of muscle and soft tissue. Best tool.
Real-time contrast-enhanced ultrasound function: Equipped with Esaote's world-leading new generation, whole-body application low-sound pressure real-time ultrasound contrast matching imaging technology - CnTI, which can be used for a variety of clinical applications such as the heart, blood vessels, abdomen, small organs, etc., to achieve whole-body low-sound pressure , real-time perfusion ultrasound imaging.
Multi-parameter contrast agent quantitative analysis technology (Qontrast): Provides multi-parameter, true and fast contrast agent quantitative analysis technology, which not only realizes intuitive color coding of contrast agents, but also provides three-dimensional quantitative analysis technology.
2. Clinical Application
MyLab™40 can meet the needs of general imaging and cardiovascular examinations for adults and children, mainly including various application fields such as heart, peripheral blood vessels, abdomen, small organs, breast, obstetrics and gynecology, urology and musculoskeletal system. Its built-in integrated cardiac exercise stress test (StressEcho) and comprehensive anatomical M-mode (CompassMMode) and other technologies further enhance its capabilities in cardiac disease diagnosis.
3. Other Functions
Real-time 3D/4D technology: 3D images are acquired in real time through a new generation of volume probes, allowing doctors to clearly observe the dynamics of the fetus.
Multi-mode cardiac tissue Doppler imaging technology (TVM): displays the heart movement speed on a two-dimensional image in a color-weighted manner, which helps to identify non-pulsating parts and abnormal early contraction parts caused by myocardial infarction.
Radiofrequency signal vessel wall intima analysis technology (QIMT): used to track and measure various parameters such as intima-media thickness of arterial vessel walls, is an important means for early detection of potential risk factors for cardiovascular disease.
Patient digital file management system: Provides novel embedded digital files and patient data management software to facilitate doctors to scan and store dynamic and static ultrasound images in real time.
Other ultrasound parts that we can offer:
Biosound | Mylab Series | CPU mainboard | 9501361000 |
Knowledge point
Fetal Ultrasound
1. A fetal ultrasound, also called a fetal sonogram, is a test that uses sound waves to see images of an unborn baby in the mother's womb.
2. As the mother grows closer to the date of delivery, a prenatal ultrasound will be used to determine the fetal position. This is important to plan the best method of delivery to attempt for the safety of the mother and child.
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★ Professional & passionate pre-sale service team
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