Theoretical evaluation of a 50 MHz split aperture linear phased array

J. Talman, G. Lockwood
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引用次数: 3

Abstract

The development of transducer arrays for high frequency medical imaging is complicated by the extremely small dimensions of the array elements. For example, a 50 MHz linear phased array requires a center to center element spacing of only 15 /spl mu/m. Fabricating an array with these dimensions is difficult using conventional technology. A split aperture design that permits much larger element spacing (3-4 times) while avoiding the formation of grating lobes is described. The 3D radiation pattern of a 2.0/spl times/1.4 mm, 50 MHz split aperture phased array with 32 transmit elements and 32 receive elements was evaluated theoretically. The array was designed using a passive lens in the elevation direction focussed at 7.5 mm and a fixed transmit focal distance in the azimuthal direction focussed at 5.0 mm. Grating lobes in the azimuthal direction were suppressed by 60 dB over the range from 5.0 to 9.0 mm.
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50mhz分孔径线性相控阵的理论评价
用于高频医学成像的换能器阵列由于其阵列元件的尺寸极小而变得复杂。例如,50 MHz线性相控阵要求中心到中心的元件间距仅为15 /spl mu/m。使用传统技术制造具有这些尺寸的阵列是困难的。一个分裂孔径的设计,允许更大的元件间距(3-4倍),同时避免光栅瓣的形成描述。对具有32个发射单元和32个接收单元的2.0/spl倍/1.4 mm、50 MHz分割孔径相控阵的三维辐射方向图进行了理论计算。该阵列采用无源透镜在仰角方向聚焦7.5 mm,在方位角方向聚焦5.0 mm。在5.0 ~ 9.0 mm范围内,方位方向的光栅瓣被抑制了60 dB。
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