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Ultrasonic diagnostic technology is a cost-effective, practical, and reproducible non-invasive method that has no impact on the human body and offers broad adaptability. Particularly, B-mode ultrasound systems, which are based on advanced ultrasound imaging technology, have become a standard in medical diagnostics. Their use across various clinical fields is now widespread. A B-ultrasound device is a medical tool that uses ultrasonic conduction and image diagnosis techniques. The basic principle involves emitting high-frequency ultrasonic pulses into the body, where different interfaces reflect these waves to create an image, helping to identify any abnormalities or lesions.
With the rapid development of high-tech fields such as computer science, information technology, and electronics, the demand for higher image quality and resolution has increased. As a result, the scope of ultrasound applications continues to expand, and the transition from analog to fully digital systems has become a key trend. ARBOR, a leader in embedded industrial computers, has consistently focused on technological innovation in medical electronics. With its embedded solutions covering both hardware and software, ARBOR offers advantages like compact size, high reliability, low power consumption, wide operating temperature range, and long lifespan. These features have helped numerous medical and electronic companies maintain their competitive edge in the market and achieve strong product performance.
The working principle of a B-ultrasound diagnostic system involves using a probe composed of multiple crystals arranged in different configurations. Under the control of an electronic switch, it scans various sections inside the tissue, collecting multiple scanning lines. The echoes are then displayed on a two-dimensional plane, forming an image of the tissue's cross-section. The system typically consists of components such as the ultrasonic transducer (probe), transmitter/receiver unit, data processing system, panel control system, keyboard, printer, and display camera.
ARBOR’s embedded micro-boards are widely used by medical equipment manufacturers globally due to their small size, high performance, low power consumption, and stability. They have been successfully integrated into new portable, all-digital B-ultrasound devices. In B-ultrasound diagnostic systems, ARBOR provides a complete embedded solution with low-power, fan-free design, built-in graphics, network card, support for CF and DOC storage, multiple serial ports, parallel I/O interfaces, and expansion through various protocol interfaces to meet specific customer needs. On the software side, ARBOR offers customized embedded Linux or Windows CE systems, allowing seamless integration with customer-developed applications.
The following figure shows the application function structure of the ARBOR EmCORE-i761 embedded motherboard in a domestic all-digital ultrasound system:
[Image: Application of Embedded Motherboard in Medical B Ultrasound Diagnostic Instrument]
B-ultrasonic diagnostic device functional structure diagram
ARBOR EmCORE-i761 features include:
- 3.5" micro motherboard
- Intel Pentium M Socket 479 CPU, up to 1.8GHz, FSB 400MHz
- Onboard Intel Ultra Low Voltage Celeron M 600MHz CPU (optional)
- Supports DDR 200/266 up to 1GB DDR SDRAM
- Supports LVDS, DVI, CRT, and TV-out
- Supports CF card Type I/II, up to 4GB
- One PCI interface supports 3 PCI expansions
- Supports 6 USB 2.0 interfaces
From the above B-ultrasound diagnostic architecture and the functions of the ARBOR 3.5" micro-board EmCORE-i761, it's clear that this board not only meets the requirements of full digital and black-and-white B-ultrasound but also serves as an ideal solution for cart-type, portable, and veterinary B-ultrasound systems.
In the field of healthcare, a noble mission aimed at creating health and saving lives, embedded technology has made remarkable progress in collaboration with the medical industry. As a leading global provider of embedded industrial PCs, ARBOR offers comprehensive embedded solutions in both hardware and software. Its compact design, high reliability, low power consumption, and long lifespan have enabled the development of advanced medical devices. The ARBOR embedded motherboard, with its small size, powerful performance, low power consumption, and exceptional stability, is an ideal choice for a wide range of medical systems, including MRI machines, multi-parameter monitoring devices, mobile medical diagnostic computers, ultrasound systems, X-ray imaging systems, computer-assisted surgical tools, and pharmacy prescription query systems.