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Medical equipment

Clone example of medical device B ultrasound equipment prototype

Date: 2016-10-26

Xinxin Technology has set up a large-scale high-end medical equipment reverse engineering department with B-, ultrasound, X-ray machines, CT machines, and nuclear magnetic resonance as its main research objects. In the long-term technical research, we have made a number of technological breakthroughs and accumulated many successful cases. Among them, the imitation clones of B-mode equipment, ODM, and OEM foundry materials are the same machine clones of Xinxin Technology's reverse engineering department. success case.

In recent years, China's medical equipment has developed rapidly, but it still cannot fully meet the domestic market demand. At present, the development of China's medical device industry still faces six major barriers, and technical and talent barriers are the main factors limiting the development of China's medical device industry. The production of high-precision medical devices involves multiple technical fields, and requires the cross-application of different disciplines such as medicine, materials science, and biochemistry. The accumulation of related professional technologies and the cultivation of talents all require considerable time. PCB克隆 才能快速破除国外技术垄断。 Therefore, domestic medical institutions want to quickly improve their technology and talent reserves, and only PCB cloning can quickly break away foreign technology monopolies.

In order to improve the core technology of domestic medical equipment, Xinxin Technology has set up a large-scale high-end medical equipment reverse engineering department with B-, ultrasound, X-ray, CT, and MRI as the main research objects. In the long-term technical research, we have made a number of technological breakthroughs and accumulated many successful cases. Among them, imitation clones of B-mode equipment, ODM, and OEM foundry materials are another successful case of Xinxin Technology's reverse engineering department. The main technical parameters are as follows:

B ultrasound technical parameters
1.Instructions for the use of the equipment
2. Main specifications and system overview:
2.1 High-end black and white portable ultrasound diagnostic instrument includes:
2.1.1 High-resolution LCD display
2.1.2 Fully digital two-dimensional grayscale imaging unit
2.1.3 Fully digital beamformer
2.1.4 Tissue second harmonic imaging (applied to convex array, high frequency linear array probe)
2.1.5 Two-dimensional image optimization technology
2.1.6 Configurable variable-angle anatomy M-type (built-in ultrasound instrument host)
2.1.7 Multi-angle extended probe technology
2.2 Measurement and analysis: (B type, M type)
2.2.1 General measurement (including abdominal, urinary and small organ software packages)
2.2.2 Gynecology and obstetric measurement (including fetal growth curve and multiple birth calculation software package)
2.2.3 Vascular measurement and analysis
2.3 Image storage and (movie) playback unit
2.4 Output signal: composite video
2.5 Image management and recording device:
2.5.1 Ultrasound image archiving and medical record management system, integrated medical record management unit includes storage, retrieval and modification of patient data, reports, images, etc.
2.5.2 Static images are directly stored in the general PC format, and no special software is needed to view the images directly on ordinary PCs
2.5.3 USB interface
3. System Overview
3.1 General functions of the system:
3.1.1 Monitor:> 10 ″ LCD display
3.1.2 Fully activated electronic probe interface: 2 3.2 probe specifications
3.2.1 Frequency: Ultra-wideband frequency conversion probe, the working frequency is clearly displayed, and the two-dimensional display frequency can be selected from ≥ 4 types
3.2.2 Convex array probe for abdomen, maximum frequency ≥6MHZ, minimum frequency ≤2.5MHZ (please attach photos)
3.2.3 Configurable high frequency linear array probe center frequency ≥13MHz
3.2.4 Probe configuration: 1 electronic convex array (abdominal) probe
3.2.5 Puncture guidance: The probe can be equipped with a puncture guidance device and has a puncture measurement function
3.3 Main parameters of 2D grayscale imaging:
3.3.1 Working frequency range of variable frequency probe:
Electronic convex array: ultrasonic frequency 2.5-6.0MHz
Electronic linear array: Ultrasonic frequency 5.0-13MHz
Electronic microconvex (including cavity): ultrasonic frequency 3.0-9MHz
3.3.2 Gray level ≥256
3.3.3 Scanning rate: electronic convex array probe, full field of view, 18 cm depth, frame rate ≥15 frames / second, can display frame rate
3.3.4 Focusing of transmitting sound beam: transmitting ≥4 segments
3.3.5 Posture marks ≥ 50
3.6.6 Digital sound beam former: digital full dynamic focusing, digital variable aperture and dynamic apodization, A / D≥12 bit (provided original date sheet certification)
3.3.7 Playback reproduction: grayscale image movie playback ≥1000 frames, playback time ≥30 seconds
3.3.8 Gain adjustment: B / M can be adjusted independently, TGC segment ≥6
3.4 Ultrasonic power output adjustment: B / M output power is adjustable, and the number of adjustable stages is ≥50
At present, the B-mode equipment developed by Xinxin Technology has been successfully put into use in major medical institutions. Not only can we provide PCB copy board, PCB cloning, PCB design, chip decryption, ODM, OEM foundry and other services for a large number of high-end products for medical institutions. Technical Information.

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