基于低复杂度、可编程FPGA的8通道超声变送器,用于医学成像研究

C. Dusa, P. Rajalakshmi, Suresh Puli, U. Desai, S. Merchant
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引用次数: 11

摘要

在商用超声系统中,发射模块通常产生延时激励脉冲来引导和聚焦声束。然而,这些系统中的超声发射器模块限制了医学超声研究人员的使用。在本文中,我们提出了一个可编程架构的8通道超声发射机用于医学超声研究活动的发展。该架构由8个发射通道和基于现场可编程门阵列(FPGA)的可配置延迟配置组成,可根据医疗应用引导声波束、发射频率和脉冲模式长度。我们的系统工作在脉冲回波模式下,超声波传输频率高达20 MHz,激励电压高达100 Vpp,通过单个高速串行外设接口(SPI)进行单独通道控制。根据用于引导和聚焦超声光束的8元线性换能器阵列的物理参数,在Matlab中生成了预先计算好的每条扫描线的延迟曲线。利用所设计的发射模块将超声传输到明胶体中,采集回波后进行b模成像。结果表明,该传输平台可用于超声成像研究和医学诊断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low complex, programmable FPGA based 8-channel ultrasound transmitter for medical imaging researches
In commercial ultrasound systems, the transmit module typically generates the time delayed excitation pulses to steer and focus the acoustic beam. However, the ultrasound transmitter module in these systems has limited access to medical ultrasound researchers. In this paper, we have presented the development of a programmable architecture for 8-channel ultrasound transmitter for medical ultrasound research activities. The proposed architecture consists of 8 transmit channels and Field Programmable Gate Array (FPGA) based configurable delay profile to steer acoustic beam, transmit frequency and pulse pattern length depending on the medical application. Our system operates in pulse-echo mode, with ultrasound transmit frequency up to 20 MHz, excitation voltage up to 100 Vpp, and individual channel control with single high speed Serial Peripheral Interface (SPI). Pre-calculated delay profiles per scanline are generated in Matlab, based on physical parameters of 8 element linear transducer array which are used to steer and focus the ultrasound beam. An experiment is carried with our transmit module to transmit ultrasound into gelatin phantom, acquired echoes and processed for B-mode imaging. The results show that this transmit platform can be used for ultrasound imaging researches and also for medical diagnosis.
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