The resolution is 16-bit, the sampling rate is 170MSPS ADC, the number of pixels is 2560*2048, and the grayscale display is 1786 LCD screen. These cutting-edge electronics technologies are being developed for the latest medical devices. This article refers to the address: http:// Japan's THine Electronics is developing an ADC with a maximum sampling rate of up to 170MSPS and a resolution of 10 bits. The company plans to first launch products in medical devices with this demand in early 2005-2006. Japan's International Display Technology (IDTech) is developing liquid crystal displays for medical devices. In February 2005, Ke-Mei MG entered the market for mammography equipment (breast image recording equipment) for breast cancer diagnosis. In this device, a photographic system using phase contrast technology is used, which greatly improves the picture quality of photographic images. The performance of image diagnostic equipment is improved, and the focus is on improving diagnostic accuracy. It is to obtain more information (sensors) with high precision, and transform the information into digital signals without loss, high speed, and then transmit (ADC, signal transmission), and then draw the required diagnosis based on these signals. The image (image reorganization) is then displayed correctly (display device). The rapid advancement of image diagnostic equipment with the development of cutting-edge electronic technology is manifested in the multi-column aspect of X-ray CT equipment. The so-called multi-column is to arrange multiple rows of X-ray detectors side by side in the device, which can take multiple images at a time, thereby expanding the inspection range and shortening the inspection time. Moore's Law in Medical Devices: Since 1990, the number of X-ray detectors has increased by approximately doubling every 1.5 years, and now up to 64 columns of products have been put into use, and products with 128 columns of detectors have been In development. The update cycle for medical devices is about 10 years. With the support of the Japan New Energy/Industrial Technology Integrated Development Agency (NEDO) and the Institute of Radiation Medicine, Toshiba Medical Systems has developed 256-column detectors for X-ray CT equipment. To improve the performance of X-ray equipment, it is not only the development direction of multi-column, but also can be achieved by increasing the resolution. Siemens medical solutions are not pursuing multi-column, but turn to improve resolution. The key to improving the resolution is to make the focus position of the X-ray shunt back and forth 2320 times in 1 second, which is an electron beam control technology of the X-ray tube. The goal of the latest electronic technology In order to meet the "clear" and "small and low" requirements of medical devices, various electronic technologies will be applied to the latest medical device development. Among them, the "clear" is the display, ADC, signal transmission and SiP devices and other technologies, while for the "small and low", there are motor control, camera and other technologies. 1. Clearly show the affected part “Clear†is primarily a requirement for diagnostic equipment. The purpose is to more realistically display the image of the affected area to improve the diagnostic accuracy, reduce the possibility of misdiagnosis, and early detection of the disease. The number of pixels in the display has reached 5 million, and the grayscale display has reached 1786, which can display images more accurately. The ADC achieves low power consumption while achieving 16-bit high resolution, and helps solve the heating problem of the device when designing the latest image diagnostic equipment using a large number of ADCs. In order to obtain high-precision images, medical devices such as internal audit lenses attempt to increase the pixels of CCD cameras, and signal transmission technologies that are advancing digital interface applications can be supported. Improve contrast and thoroughly subdivide grayscale International Display Technology (IDTech) controls the market's first market share in the field of liquid crystal displays for medical devices. One of the conditions that must be met by the liquid crystal display used in medical equipment is that the contrast reading is very high and can express shadows that are difficult to capture. For this reason, it is common to remove the filter (the main factor that causes the contrast to decrease) and change it to black and white. The color of the filter scatters the extraneous light, causing the contrast to drop. In addition to improving the contrast, removing the filter is also to increase the brightness. In this way, the spots that are not visible when there are filters are also clearly visible. Such spots are prone to misdiagnosis, and in order to reduce display spots, a more advanced manufacturing process is required to control the dispersion of the liquid crystal display screen spacing (the spacing between the two glass substrates sandwiching the liquid crystal material). 2, reduce damage to patients In addition to reducing the size of the device, "small and low" requires medical treatment that does not damage (low damage) patients. 50Hz Diesel Generator Set,50Hz Yuchai Power Generator Set,Kosta Small Power Genset,Yuchai Power Generator Set Shanghai Kosta Electric Co., Ltd. , https://www.ksdgenerator.com