超声成像系统

T. A. Shoup, J. Hart
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引用次数: 36

摘要

作者解释了现代相控阵成像系统的工作原理,并举例说明了使这种系统成为可能的技术进步。心脏成像系统将使用2.5至7.5 MHz的换能器提供图像,同时对血流进行多普勒测量,包括彩色血流,包含用于在屏幕上进行测量的分析软件,并支持许多外围设备。技术进步使这成为可能,包括制造高频相控阵换能器的能力,新型压电材料,信号处理的进步,以及嵌入系统的软件。电子方面的进步包括更快、更密集的存储器、高速但低功耗的逻辑、以合理成本制造门阵列的能力、表面安装封装以及硬拷贝设备和视频记录技术的改进。
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Ultrasonic imaging systems
The authors explain the workings of a modern phase-array imaging system and present examples of the technical advances that have helped make such systems possible. A cardiac imaging system will provide images using transducers from 2.5 to 7.5 MHz, make simultaneous Doppler measurements of blood velocity, including color flow, contain analysis software for making measurements on screen, and support a number of peripherals. Technical advances that have made this possible include the ability to make higher frequency phased-array transducers, new piezoelectric materials, advances in signal processing, and software embedded in the systems. The electronic advances include faster and more dense memories, high-speed but low-power logic, the ability to make gate arrays at reasonable cost, surface-mounted packages and improvements in hard-copy devices and video recording technology.<>
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Bubble collapse and rebound in a diagnostic ultrasonic field Composite transducer with multiple piezoelectric matching layers Study of SAW pulse compression using 5*5 Barker codes with quadraphase IDT geometries Numerical predictions of surface wave phenomena for ultrasonic NDE Correction of RAC phase response by Langmuir-Blodgett films
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