Author/Authors :
Loon, Goh Chiew Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Abdul Rahim, Ruzairi Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Ridzuan Aw, Suzanna Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Yunus, Fazlul Rahman Mohd Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Nor Ayob, Nor Muzakkir Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Rahiman, Mohd Hafiz Fazalul Universiti Malaysia Perlis - School of Mechatronic Engineering - Tomography Imaging Research Group, Malaysia , Ahmad, Anita Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Ahmad, Nasaruddin Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia , Abbas, Khairul Hamimah Universiti Teknologi Malaysia - Faculty of Electrical Engineering - Process Tomography and Instrumentation Engineering Research Group (PROTOM-i), Infocomm Research Alliance, Malaysia
Abstract :
With the rapid evolution of electro-acoustical technology, ultrasonic tomography has made considerable progress in industry. An ultrasonic tomography system provides non-invasive and non-intrusive flow visualisation that enhances the understanding of fluid flow processes. The function of ultrasonic tomography is to continuously monitor the dynamics of liquid flow without interrupting the flow. The ultrasonic tomography technique is fully supported by a front-end hardware system. The front end is defined as all the hardware circuitries, including the ultrasonic transducer up to the Analogue-to-Digital Convertors (ADCs), even though the primary focus is the analogue signal processing components. We present here the challenges and trade-offs in the implementation of a front-end system by first explaining the basic operation of such a system, and then indicating what particular performance parameters are needed to ensure optimal system operation. Based on the results from our research studies, we propose an improved front-end multi-level solution that is more accurate than previous solutions and provides real-time measurement capability.
Keywords :
Ultrasonic transducer , tomography , ADC , multi , level pulser , operational amplifier
