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pedro A Pulse generator based on an Arduino platform for ultrasonic applications1
pedro A Pulse generator based on an Arduino platform for ultrasonic applications1
March 26, 2018 | Author: Mónica Vázquez | Category:
Ultrasound
,
Piezoelectricity
,
Electronic Engineering
,
Electrical Engineering
,
Electromagnetism
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Available online at www.sciencedirect.com ScienceDirect Physics Procedia 70 (2015) 1096 – 1099 2015 International Congress on Ultrasonics, 2015 ICU Metz A Pulse generator based on an Arduino platform for ultrasonic applications Pedro Acevedoa, Mónica Vázqueza, Joel Durána, Rodolfo Petrearcea a Universidad Nacional Autonoma de México, Av. Universidad No 3000. Col. Universidad Nacional Autónoma de México Mexico, D.F. Delegación Coyoacán, C.P. 04510, México. Abstract The objective of this work is to use the Arduino platform as an ultrasonic pulse generator to excite PVDF ultrasonic arrays in transmission. An experimental setup was implemented using a through-transmission configuration to evaluate the performance of the generator. ©2015 2015The TheAuthors. Authors. Published by Elsevier © Published by Elsevier B.V. B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). Peer-review under responsibility of the Scientific Committee of 2015 ICU Metz. Peer-review under responsibility of the Scientific Committee of ICU 2015 Keywords: PVDF; Ultrasound; throug transmission; transducer arrays, PVDF Introduction Applications of measurement of speed for the characterization of materials using non-destructive testing are useful to determine various parameters of different materials. Pulsed methods allow you to determine the speed, by measuring the time requiring the pulse to travel through the medium and back. Standard methods include: through transmission, sign-around, pulse-echo, interferometry, etc., (Y.B.Gandole et al, 2005). The pulse generator is one of the critical components in an ultrasonic system. Because it is the device that produces the electrical pulses that are applied to the emitter transducer. The most important parameters associated with the pulse generator are frequency, amplitude and power of these electrical pulses, which determine the energy delivered to the ultrasonic transducer. Ultrasonic non-destructive testing applications are often based on pulsed electrical excitation of the piezoelectric transducers (e.g.: PZTs) by means of a single-phase pulse (shock excited) or by means of two-phase waves (burst excited); using to produce these pulses, generators (pulsers) producing voltages in the order of hundreds of volts, these pulsers usually include as circuit breaker SCRs or MOSFETs. (J.L San Emeterio et al, 2004). 1875-3892 © 2015 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). Peer-review under responsibility of the Scientific Committee of ICU 2015 doi:10.1016/j.phpro.2015.08.234 this paper proposes to use the Arduino platform as a pulse generator to excite a PVDF transducer array which requires very little power.028K) transducer array of PVDF vibrating in the thickness mode was made using an Arduino Mega 2560 card.e. In the market there is a need of low-cost pulsers to excite transducer arrays. from one end to another. The micro controller within the Arduino tablet is programmed using the Arduino (based on Wiring) programming language and the Arduino (based on Processing) development environment. Methodology To evaluate the proposed pulse generator. a transducers array with the same characteristics as the transmitter (28μm in thickness) was employed. Figure 2. then number two. at a frequency of 5 kHz (200μs). most of them contain digital ports that can be configured as inputs or outputs. 2014) . Therefore output voltages from the Arduino platform are large enough to make the piezoelectric element vibrate (Piezo Film Sensors. the transducer array is sequentially excited. The bandwidth range can be from 0. / Physics Procedia 70 (2015) 1096 – 1099 1097 Figure 1. Block diagram for a piezoelectric transmitter Arduino is an electronic open platform for the creation of prototypes based on free and easy-to-use hardware and software. so in an attempt to provide a solution to this problem. i. the experimental set-up shown in the block diagram of Figure 2 was used.Pedro Acevedo et al. PVDF arrays are desirable in the tests of nondestructive testing due to its flexibility. i. The excitation of the PVDF (LDT1 . The excitation was sequentially made. Ultrasonic pulses generated by the Arduino card are shown in Figure 2. In reception.001 Hz to 108 Hz. then number 3 and finally number 4. first element number one. which was programmed to generate a single pulse. graphed and stored in a PC using the Matlab tool. These ports can supply 5 volts and 40 mA at each terminal (Arduino website. A PVDF film can generate voltage pulses from 100mV to 100V depending on the strength and the impedance of the circuit. they were processed. It is observed that there is a 10μs delay between the rise edges of each transducer. Unlike PZT transducers. The ultrasonic signal with the information was acquired using a Tektronix DP0 3014 four-channel oscilloscope and these signals were transferred to a PC via the USB port. 2014). There are several models of Arduino platforms.e. with amplitude of 5V. (Measurement Specialties. 2008). Ultrasonic Pulses generated by Arduino . The generated ultrasonic signal traveled through water and interacted with the object under test (a 8 x 8 mm acrylic bar). PVDF transducers can be excited using voltages ranging from 1 to 30 V. Figure 3. the mechanical vibration emitted by the SDT PVDF transducer is disturbed when passing through the obstacle of acrylic.26 1.4 ZL [MRayl] 3.8 Table 1 shows the acoustic parameters used in the experiments.1098 Pedro Acevedo et al. due to the change of medium (water-acrylic-water).20 2. 8 mm depth and 100 mm long and it was placed at a distance of 70 mm from the transmitter and a distance of 62 mm from the receiver. . using the a/d card of the oscilloscope.494 3. this rod generates a variation in the propagation speed of the transmitted ultrasonic signal emitted by the element number 3 of the transducer. The generated signal is a square signal (a 7μs high-pulse). It is obvious to see that when it is interposed an obstacle between the transmitter and the receiver and this obstacle is made of a material with a higher propagation speed than the medium. The repetition period was set at 5 kHz (200μs). / Physics Procedia 70 (2015) 1096 – 1099 The four elements transducer array and an acrylic rod which is used as an obstacle. Results Figure 4 shows the signals received by the commercial PZT transducer. the resulting ECHO will have an advancement in time with respect to the reference signal. Experimental set up diagram Material Lengthwise speed[mm/s] Cross speed [mm/s] Acrylic Water at 25°C PVDF 2. The obstacle was an acrylic bar with the following dimensions: 8 mm width. 3.4967 2. The obtained ultrasonic signals were converted to a digital format. one of them was used as transmitter and the other as receiver. Figure 3 shows the two PVDF commercial transducer arrays.75 1. Yawale. PVDF transducers are also good receivers.meas-spec. Italy for his help. Volume 42. The Measurement Specialties manual [4] suggests that when PVDF transducers are used as transmitters the thickness resonance frequencies: 39.aspx.22 MHz for 9 μm should be used. It is possible to excite transducers using 5 volts. DGAPA Projects PAPIIT-1N109513 and IT101213 for their support and Prof. because this type of transducer can emit mechanical vibrations as a result of small voltages. therefore. University of Florence.33 kHz it was possible to obtained useful information. 25 March 2008.com/piezo-film-sensors. Pages 277–281. Signals received by transducer PVDF array 4. Simplified instrumentation for ultrasonic measurements Electronic Journal "Technical Acoustics" 2005. Piezo Film Sensors.L San Emeterio. J. because the voltage value of the ultrasonic signals acquired by the PVDF transducer array is in the order of 20mV According to results to excite PVDF transducers using an Arduino platform seems to be a viable alternative. high voltage drivers are not required. Although in this work transducers were excited using a frequency of 133. (Consulted: May 2014). S. Conclusion The advantage of the Arduino platform about commercial generators is that since it consumes low power. Acknowledgements The authors thank Dr. 37. they can supply output voltages 10 times greater than a PZT transducer would supply for the same force applied. S. P. et al. Yawale. Gandole. . A. since at these frequencies the maximum energy transfer is obtained.cc/ (Consulted: May 2014).28 MHz for 28 μm and 122. April 2004. Modeling NDT piezoelectric ultrasonic transmitters. Hector Benitez for the loan of the Cluster. Finally. Technical Manual. S. once the experimental through-transmission configuration was implemented and according to the results it is possible to conclude that the use of an Arduino platform to excite PVDF ultrasonic transducers is a good option. References Arduino Website. Inc. Ramos.Pedro Acevedo et al. B. http://www. Measurement Specialties. / Physics Procedia 70 (2015) 1096 – 1099 4 1099 Author name / Physics Procedia 00 (2015) 000–000 Figure 4. http://arduino. Neither a high-gain amplifier is needed. Measurement Specialties. the current consumption is minimized and a cooling system is not required to dissipate heat. Y. Piero Tortoli from the MSDLAB. Ultrasonics. Issues 1–9.
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