Abstract
Scanning acoustic microcopy (SAM) is widely used in biomedical and industrial applications in dermatology, ophthalmology, intravascular imaging, and small animal images, owing to SAM’s ability to photograph small structures with a good spatial resolution. One of the most important devices of this system is the pulser/receiver (P/R) (PRN-300, Ohlabs Corporation, Nam-gu Busan, Republic of Korea), which generates pulses to trigger a high-frequency transducer. This article presents the design of a pulse generator to excite high-frequency transducers with four channels. The characteristics of the pulses, such as time and frequency, can be reconfigured by using a high-speed field programmable gate array (FPGA). The configuration software was developed for communicating with the P/R device via a USB connector for easy, feasible pulse selection and real-time pulse management. Besides that, during the design and implementation of the hardware, we optimized the damping resistor value to reduce the overshoot and undershoot part of the signal, ensuring the best effect on the transducer signal. The test results show that unipolar pulses worked with transducers with frequencies over 100 MHz. The SAM systems can work simultaneously with multiple transducers, and the resulting images have different resolutions of regions.
Highlights
In recent years, the scanning acoustic microscopy (SAM) system has been widely used in the field of nondestructive testing to detect defects such as voids inside rigid structures [1,2,3,4]
We presented the structure and components of a complete P/R device with high flexibility that can be integrated into many Scanning acoustic microcopy (SAM) systems with different transducer types
5, we show the parameters of the components that amplified the amplifier and the hardware
Summary
The scanning acoustic microscopy (SAM) system has been widely used in the field of nondestructive testing to detect defects such as voids inside rigid structures [1,2,3,4]. C. Uhrenfeldt et al adopted SAM to evaluate power electronic components with a nondestructive testing (NDT) method [8]. The goal of this test was to check the P/R device’s interference amplitude under operating conditions These results evaluated effect of environmental amplitude undernormal normal operating conditions. These results the evaluated the effect of interference on the device when combined with other components of the Thesystem. Results environmental interference on the device when combined with other components of the SAM are depicted in depicted. XC6SLX9-144; (c) Scanning image of the inside of the Spatarn-6 with a 25 MHz transducer
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