Relevant bibliographies by topics / Digital oscilloscope

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Digital oscilloscope'

Author: Grafiati
Published: 4 June 2021
Last updated: 16 June 2025

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Journal articles on the topic "Digital oscilloscope"

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Bai, Song, and Pengzhang Yu. "High Wideband Digital Oscilloscope Design." International Journal of Computer Science and Information Technology 3, no. 1 (2024): 149–57. http://dx.doi.org/10.62051/ijcsit.v3n1.20.

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In most test applications, acquisition and analysis involving simultaneous processing of analog and digital signals. However, the bandwidth of most mainstream digital oscilloscopes is limited to 100 MHz, which is unable to meet the testing needs of high-frequency signals in complex electronic systems [1], and therefore, high-bandwidth digital oscilloscopes have emerged. Based on this background, this paper designs a digital oscilloscope hardware platform with high bandwidth by integrating FPGA and ARM technologies, aiming to meet the rigorous testing requirements of modern electronic systems. The FPGA module is based on the xc7s75fgga676 chip, which is mainly responsible for ADC control, data processing and frequency measurement functions. AM5708 is selected as the ARM module to realize the trigger, time base, amplitude and automatic setting functions of the oscilloscope. In order to ensure the accuracy and fidelity of waveform changes, the Sinc function interpolation method is used. This design further improves the acquisition bandwidth and processing speed on the basis of traditional MSO (Mixed Signal Oscilloscope) oscilloscopes, which is of great significance for the acquisition and processing of high-speed signals.
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Jiang, Jun, Huan Qu, and Shu Lin Tian. "Study on the Smart Handheld Wireless Oscilloscope." Applied Mechanics and Materials 416-417 (September 2013): 1325–30. http://dx.doi.org/10.4028/www.scientific.net/amm.416-417.1325.

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As the digital acquisition system is featured by increasingly higher technical targets and more complicated applicable conditions, the traditional digital oscilloscope has become incapable of meeting the requirements of real-time processing of sampled data and waveform display on one hand, and unqualified for field test in hard risky conditions on the other. This paper aims for comprehensively enhancing the digital oscilloscopes data processing, image display, human-machine interface and portable adaptability. To that end, it approaches the system composition of improved oscilloscope, and renders a chance to wirelessly connect the oscilloscope with any of the Smart Handheld Devices with Android operation system through the added wireless data interactive channel, which forms a smart handheld wireless oscilloscope. Such oscilloscope adopts the divisional coordination between data acquisition system and Smart Handheld Device to greatly improve data processing, waveform display and HMI, and realize wireless operation of remote test as a result.
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Jiang, Jun, and Shu Lin Tian. "A Method of Improving Signal Capture Ability of Digital Oscilloscope." Advanced Materials Research 721 (July 2013): 392–96. http://dx.doi.org/10.4028/www.scientific.net/amr.721.392.

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Signal capture is one of the hot spots in electronic test. As the representative of testing instrument, the signal capture ability of digital oscilloscope is normally judged by the waveform capture rate. Unilaterally improving signal acquisition ability whereas ignoring the improvement of waveform imaging mechanism and display effect can not increase the oscilloscopes waveform capture rate in real sense. Aiming at better ability of signal acquisition and waveform display effect of oscilloscope, this paper is committed to analyzing the improved structure of oscilloscope and conducting the real-time waveform imaging with hardware coprocessor array, and then studying the imaging mechanism of special 3D waveform and the impact of waveform display on waveform capture rate. In this way, the signal capture ability of oscilloscope is greatly improved and the effective waveform capture rate as high as 1,000,000 wfms/s is realized.
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Yang, Chongyi, Chanpin Chen, Zhenhao Wu, et al. "Multi-Channel Digital Oscilloscope Implementation over Android Device." Computer and Information Science 12, no. 2 (2019): 58. http://dx.doi.org/10.5539/cis.v12n2p58.

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Signal monitoring and waveform analysis play a significant role in state-of-the-art signal processing and electronic measurement. Traditional oscilloscopes tend to be heavy and huge, which makes it impossible for outdoor signal measurement. In addition, most of those oscilloscopes can measure merely two signals simultaneously. This article proposes the design of multi-channel digital oscilloscope over common Android mobile device. In our system we use STM32 development board to implement up to eight input channels, data processing and wireless transmission. In addition, an Android application is designed for Wi-Fi data reception, respective waveform demonstration and derivation of each signal’s amplitude and frequency. In order to transmit up to eight digital signals simultaneously as fast as possible, we designed an algorithm where all signals’ data can be transmitted within a surprisingly small amount of wireless data. In our system test, wireless data transmission is implemented and each waveform can be recovered and demonstrated basically.
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Ngozi Ernest-Okoye, Kenechukwu Sylvanus Anigbogu, and Chukwudi Okwuchukwu Aniagor. "Asp. Net simulated virtual oscilloscope." International Journal of Science and Research Archive 9, no. 2 (2023): 697–707. http://dx.doi.org/10.30574/ijsra.2023.9.2.0643.

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The Oscilloscope ranges from the CRO (Cathode Ray Oscilloscope) to DSOs (Digital Storage Oscilloscopes), which is a type of electronic test equipment that presents the dynamics of a time-varying signal as a two-dimensional pattern on a screen. Design of a virtual oscilloscope is a work that seeks to replicate the basics of power measurement of a physical oscilloscope, which is the most widely used general-purpose electronic test instrument in the laboratory but is plagued by limited supply due to high cost. As such this project bridges the gap between direct contact with the instrument and the usage of a virtual laboratory. Engineers have dealt with different spheres of this virtualization of oscilloscopes. However, this work managed to bring four different quantities; current, voltage, power, and resistance into one platform, reducing the cost and stress of having separate platforms. The work adopted Wavesurfer scope techniques and used complex AC circuits analysis to model a partial network virtualization platform, based on the ASP.NET Framework built using visual C# in Microsoft Visual Studio. The six initial inputs options: voltage and current (V-I), voltage and power (V-P), voltage and resistance (V-R), current and power (I-P), current and resistance (I-R), power and resistance (P-R) as measured on a meter of specified type (Averager or RMS), serve as physical inputs, which, combined with the operating mains frequency, is passed using dedicated algorithms to obtain the derivative Amplitudes.
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Ismail, Mahizah, Farid Minawi, Wan Zul Adli Wan Mokhtar, Noraihan L Abdul Rashid, and Ahmad K. Ariffin. "Using a web-based and stand-alone oscilloscope for physics experiment during Covid-19 pandemic." Physics Education 58, no. 1 (2022): 015006. http://dx.doi.org/10.1088/1361-6552/ac95eb.

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Abstract Teaching alternating currents, ac or sound waves, is incomplete without an introduction to the oscilloscope. An oscilloscope is a tool that graphically displays electrical signals and shows their time dependence. However, due to the pandemic, triggered by the SARS-CoV-2 virus, many students do not have the opportunity to master the use of an oscilloscope. Face-to-face teaching activity has been interrupted in both schools and higher institutions. The sudden change to online teaching created problems among educators, especially for laboratory activities. The central issue is creating laboratory activities without going into the labs for the students to acquire the required skills, especially the basics of how to operate an oscilloscope. In order to create an opportunity and engaging environment, we suggested the use of the ‘web-based and stand-alone oscilloscope’. The software consists of a low-frequency (signal) generator (LFG), a direct current power supply, and an oscilloscope. The LFG is capable of producing several types of signal and the software is designed to aid the undergraduate engineering and physics students in learning the operation and functions of a digital storage oscilloscope. It can be used as an alternative to face-to-face laboratory activity for physics experiments. It is free and easy to use. The experiments enable students to develop the experimental and measurement skills related to signal generators and oscilloscopes. Hence it opens the opportunity of ‘doing’ virtual physics investigations individually at home.
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Qu, Ai Ling, Hong Mei Liu, Yan Ling Lv, Ru Kun Han, and Qiu Yan Liang. "The Design and Implementation of Virtual Digital Oscilloscope." Advanced Materials Research 898 (February 2014): 883–86. http://dx.doi.org/10.4028/www.scientific.net/amr.898.883.

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The virtual instrument is the computer-based instrument. The close integration between computer and instrument is one important instrument development direction. The virtual digital storage oscilloscope introduced in the paper has some additional functions except the common oscilloscope functions, its additional functions are spectral analysis, parameter automatic measurement, complex conditions trigger and data storage. The virtual digital storage oscilloscope communicates with the PC software through USB port. The paper discusses the overall design ideas of virtual digital storage oscilloscope, and the composition and functions of the circuits.
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Fushshilat, I., and D. Barmana. "Low Cost Handheld Digital Oscilloscope." IOP Conference Series: Materials Science and Engineering 384 (July 2018): 012027. http://dx.doi.org/10.1088/1757-899x/384/1/012027.

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Yeom, Kyung-Whan, and Jin-Seong Roh. "An Efficient Cross-Correlation Method for a Digital Phase Noise Measurement System." Journal of Electromagnetic Engineering and Science 22, no. 6 (2022): 665–77. http://dx.doi.org/10.26866/jees.2022.6.r.136.

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In this paper, we propose a digital phase noise measurement using a 10-bit digital oscilloscope MXR608A from Keysight Technologies. The digital oscilloscope’s four channel data are used for digital phase noise measurement: two channels are assigned for the equally divided SUT (source under test), while the other two are assigned for the equally divided reference signals. First, we propose a cross correlation method to identify the phase noises added by the ADCs in the digital oscilloscope from the measured phase noises. Then, we propose a novel cross correlation method to extract the SUT phase noise. The cross-correlation output of the proposed method yields only the SUT phase noise and does not contain the reference signal phase noise unlike the traditional method. The proposed method was applied to measure the phase noises of the two SUTs, Keysight’s synthesized signal generator E8257D and function generator 33600A. The measured phase noises of the two SUTs were compared and found to show remarkable agreements with those measured using Keysight’s signal source analyzer E5052B. The phase noise floor of our digital phase noise measurement system is about -160 dBc/Hz.
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Zhang, Fa Quan, Xing Da Xiao, and Guo Fu Wang. "Study on Remote Control Techniques to the Digital Storage Oscilloscope Based on VC and GPIB." Applied Mechanics and Materials 303-306 (February 2013): 444–47. http://dx.doi.org/10.4028/www.scientific.net/amm.303-306.444.

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Some techniques of controlling remotely the digital storage oscilloscope are proposed including VISA, VXIplug&play drivers, TVC and IVI-COM drivers. By means of TekVISA, several application development environments can be used to develop functions of the digital storage oscilloscope. The programming language of Visual C++ is used to develop software. With the help of TekVISA and the dynamic link library, remote control to the digital storage oscilloscope through network is completed. All operations to the digital storage oscilloscope including parameters setup, data acquisition, waveform acquisition and storage, data processing are implemented in a remote place. The results show that the techniques of remote control are convenient and efficient and fit for experiments of scientific research and practical projects.
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Dissertations / Theses on the topic "Digital oscilloscope"

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Lau, Anthony Kwok. "A digital oscilloscope and spectrum analyzer for anaysis of primate vocalizations : master's research project report." Scholarly Commons, 1989. https://scholarlycommons.pacific.edu/uop_etds/2177.

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The major objective of this report is to present information regarding the design, construction, and testing of the Digital Oscilloscope Peripheral which allows the IBM Personal Computer (IBM PC) to be used as both a digital oscilloscope and a spectrum analyzer. The design and development of both hardware and software are described briefly; however, the test results are analyzed and discussed in great detail. All documents including the circuit diagrams, program flowcharts and listings, and user manual are provided in the appendices for reference. Several different products are referred to in this report; the following lists each one and its respective company: IBM, XT, AT, and PS/2 are registered trademarks of International Business; Machines Corporation.; MS-DOS is a registered trademark of Microsoft Corporation.; and Turbo Basic is a registered trademark of Borland International, Inc.
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Kočík, Karol. "Modul osciloskopu s bezdrátovým přenosem dat." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2015. http://www.nusl.cz/ntk/nusl-221279.

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The aim of the thesis is the design and realization of the oscilloscope module with wireless data transfer. One part of the thesis is a short overview of the different types of AD converters. The main part is focused on the hardware configuration that allows modification of the wireless module of the oscilloscope, and the possibility of using in the industrial zone. The design takes into account reducing of consumption and EMC compatibility.
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Гриненко, Віталій Вікторович, Виталий Викторович Гриненко, Vitalii Viktorovych Hrynenko та А. В. Любко. "Багатофункціональний осцилографа-аналізатор з генератором сигналів довільної форми". Thesis, Сумський державний університет, 2015. http://essuir.sumdu.edu.ua/handle/123456789/41239.

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Під час перевірки і налагодження пристроїв для відображення форми сигналу та відслідковування зміни цифрового сигналу у часі використовують осцилографи та аналізатори, які дозволяють спостерігати за зміною декількох цифрових сигналів одночасно.
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Stridfelt, Arvid. "High Speed On-Chip Measurment Circuit." Thesis, Linköping University, Department of Electrical Engineering, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-2764.

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<p>This master thesis describes a design exploration of a circuit capable of measuring high speed signals without adding significant capacitive load to the measuring node. </p><p>It is designed in a 0.13 CMOS process with a supply voltage of 1.2 Volt. The circuit is a master and slave, track-and-hold architecture incorporated with a capacitive voltage divider and a NMOS source follower as input buffer to protect the measuring node and increase the input voltage range. </p><p>This thesis presents the implementation process and the theory needed to understand the design decisions and consideration throughout the design. The results are based on transistor level simulations performed in Cadence Spectre. </p><p>The results show that it is possible to observe the analog behaviour of a high speed signal by down converting it to a lower frequency that can be brought off-chip. The trade off between capacitive load added to the measuring node and input bandwidth of the measurment circuit is also presented.</p>
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Bansod, Saurabh. "Design of low cost semi- virtual digital storage oscilloscope." Thesis, 2014. http://ethesis.nitrkl.ac.in/6026/1/110EI0251-6.pdf.

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The use of personal computers (PC) with the present-day automation, measurement and instrumentation world has opened up the door for Virtual Instrumentation. In this application a module (Arduino uno board) was used to design a semi-virtual instrument which can replace the general purpose instruments in an electronics lab. Arduino uno board is a module based on a single microcontroller. It has its associated software which is very easy to use. The programs are written in C language. In this application arduino is used to design a virtual oscilloscope. A serial communication is performed between arduino and computer. Computer is used to display continuous analog signal that has been given to the input of arduino. Since the input signal can be accessed and displayed using matlab, Fourier transform of the signal is also possible, thus it is also being used as a spectrum analyzer. A square wave has also been generated using Arduino. Hence it can also been used as a function generator.
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Sajjadian, Farnad. "A 10MHz flash analog-to-digital converter system for digital oscilloscope and signal processing applications." 1985. http://hdl.handle.net/2097/27577.

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Huang, Chong Xi, and 黃崇禧. "Design and analysis of data acquisition processor architecture in digital storage oscilloscope." Thesis, 1995. http://ndltd.ncl.edu.tw/handle/14031983854912240387.

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Books on the topic "Digital oscilloscope"

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Hickman, Ian. Digital storage oscilloscopes. Newnes, 1997.

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Masi, Charles G. Digital Oscilloscope Handbook: All You Ever Wanted to Know About DSOs and More. Butterworth-Heinemann, U. S., 1992.

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Digital Storage Oscilloscopes. Elsevier, 1997. http://dx.doi.org/10.1016/b978-0-7506-2856-3.x5000-4.

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Ian Hickman EUR.ING BSc Hons. Digital Storage Oscilloscopes. Newnes, 1997.

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Pientak, Doug. Understanding Signals: Student Guide, Version 1.0. Parallax Press, 2003.

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Essick, John. The Python-Based Laboratory. Oxford University PressOxford, 2024. https://doi.org/10.1093/9780191998478.001.0001.

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Abstract The Python-Based Laboratory: A Hands-On Guide for Scientists and Engineers provides a learn-by-doing approach to acquiring the Python programming skills needed to implement computer-controlled experimental work. The Python-Based Laboratory leads its readers to mastery of the popular, open-source Python computer language in its role as a powerful laboratory tool by carrying out interesting and relevant projects that explore the acquisition, production, analysis, and presentation of digitized waveforms. Readers, who are assumed to have no prior computer programming or Python background, begin writing meaningful programs in the first few pages. The Python-Based Laboratory can be used as a textbook for science and engineering instructional laboratory students who are being taught up-to-date Python-based experimental skills. The book also works well as a self-study guide for professional laboratory researchers, industrial engineers, hobbyists, and electronics enthusiasts seeking to automate tasks using Python. Topics covered include the control of data-acquisition devices (including multifunction data-acquisition hardware and IEEE 488.2-interfaced stand-alone instruments), data file storage and presentation, digitized data concepts (such as resolution, sampling frequency, and aliasing), data analysis techniques (curve fitting and fast Fourier transform), and building a graphical user interface (GUI) using the Tkinter toolkit that is included as part of the Python Standard Library. As readers work their way through the book, they build several computer-based instruments, including a DC voltmeter, digital oscilloscope, DC voltage source, waveform generator, blinking LED array, digital thermometer, spectrum analyzer, and frequency meter. Each chapter concludes with a Do Yourself project and a Use It! example as well as a healthy selection of homework-style problems, allowing readers to test their understanding and further develop their Python-based experimentation skills.
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Book chapters on the topic "Digital oscilloscope"

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Herres, David. "Acquiring, Displaying, and Measuring Digital Signals in an Oscilloscope." In Oscilloscopes: A Manual for Students, Engineers, and Scientists. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-53885-9_6.

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Liccardo, Annalisa, Francesco Bonavolonta, Francesco Lamonaca, et al. "Remote Control of a Digital Oscilloscope for Use in Distance Learning." In Mechanisms and Machine Science. Springer Nature Switzerland, 2025. https://doi.org/10.1007/978-3-031-91179-8_37.

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D’Arco, M., E. Napoli, and E. Zacharelos. "Digital Circuit for the Arbitrary Selection of Sample Rate in Digital Storage Oscilloscopes." In Lecture Notes in Electrical Engineering. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-37277-4_21.

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Landgraf, Stephan. "Semiconductor Lights Sources in Modulation Fluorometry Using Digital Storage Oscilloscopes." In Reviews in Fluorescence 2004. Springer US, 2004. http://dx.doi.org/10.1007/978-0-306-48672-2_15.

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Hickman, Ian. "Digital storage oscilloscope fundamentals." In Digital Storage Oscilloscopes. Elsevier, 1997. http://dx.doi.org/10.1016/b978-075062856-3/50002-7.

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Hickman, Ian. "Digital storage oscilloscope modes of operation." In Digital Storage Oscilloscopes. Elsevier, 1997. http://dx.doi.org/10.1016/b978-075062856-3/50003-9.

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Essick, John. "Data Acquisition Using NI DAQ Device." In The Python-Based Laboratory. Oxford University PressOxford, 2024. https://doi.org/10.1093/9780191998478.003.0007.

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Abstract After their Chapter 6 orientation to the NI DAQ device’s capabilities via MAX, readers write Python-based data acquisition and generation programs that call functions from the NI device driver software NI-DAQmx. These programs execute analog-to-digital and digital-to-analog tasks on the NI DAQ device in order to realize several computer-based instruments, including a DC voltmeter, digital oscilloscope, DC voltage source, and hardware-timed waveform generator. The necessity for placing GUI and DAQ operations on separate execution threads, as well as the need for triggering in an oscilloscope application, are explored. A Do It Yourself project implements the DAQ device’s digital outputs to create a blinking LED array and a Use It! example demonstrates how a lowpass filter can effectively eliminate aliasing in the waveform-digitization process.
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Essick, John. "Data Acquisition Using MCC DAQ Device." In The Python-Based Laboratory. Oxford University PressOxford, 2024. https://doi.org/10.1093/9780191998478.003.0008.

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Abstract After their Chapter 6 orientation to the MCC DAQ device’s capabilities via DAQami, readers write Python-based data-acquisition and generation programs that call functions from the Universal Library, MCC’s device driver software. These programs execute analog-to-digital and digital-to-analog tasks on the MCC DAQ device in order to realize several computer-based instruments, including a DC voltmeter, digital oscilloscope, DC voltage source, and (for upgraded MCC models) hardware-timed waveform generator. The necessity for placing GUI and DAQ operations on separate execution threads, as well as the need for triggering in an oscilloscope application, are explored. A Do It Yourself project implements the DAQ device’s digital outputs to create a blinking LED array, and a Use It! example demonstrates how a lowpass filter can effectively eliminate aliasing in the waveform-digitization process.
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Mornington-West, Allen. "Digital theory." In Sound Recording Practice. Oxford University PressOxford, 1995. http://dx.doi.org/10.1093/oso/9780198163817.003.0003.

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Abstract The sounds which we hear come to the ear as a continuously changing variation in the ambient atmospheric pressure. These small changes are the very ones which we aim to pick up using a microphone. The output of the microphone is an electrical signal (voltage) which is related to the pressure changes which move the microphone diaphragm. This signal is thus an analogue of the originating pressure changes, and hence it is referred to as an analogue (sometimes spelt analog) signal. The principal characteristic of an analogue signal is that it is continuous in time and that there are thus no discontinuities. Indeed, if we use a conventional oscilloscope to trace out the shape of the signal’s size or amplitude with respect to time then we might see something such as Figure 3.1. This trace we would refer to as its wave shape. We can contrast this shape with the mathematically much simpler one of a sine wave, as in Figure 3.2.
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Sindhu, B., S. Kalyani, P. Chandan, and M. Naresh. "DIGITAL CONTROL OF ELECTRONIC INSTRUMENTS OVER SCPI." In Futuristic Trends in Network & Communication Technologies Volume 3 Book 4. Iterative International Publishers, Selfypage Developers Pvt Ltd, 2024. http://dx.doi.org/10.58532/v3bfnc4p1ch3.

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This paper presents the control of a programmable instruments such as digital signal generator, oscilloscope etc., through the interfaces like USB, LAN, Ethernet using Standard Programmable Instrument Commands (SCPI) as the standard. This can be utilized in industries where human instrument control is absolutely not possible due to their complexity, and the operation scenario must be repeated numerous times. This study makes the suggestion that various instruments can be operated by means of a set of cross-platform software instructions. This software system is mostly utilized for instrument control, transmission with the SCPI instruction set and achieves handle instruments
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Conference papers on the topic "Digital oscilloscope"

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Yin, Guandi, Duyu Qiu, Peng Ye, and Yi Zhou. "Digital Oscilloscope High-frequency Active Differential Probe Design." In 2024 Academic Conference of China Instrument and Control Society (ACCIS). IEEE, 2024. https://doi.org/10.1109/accis62068.2024.10948735.

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Wu, Di, Hongyang Jiao, Yaxuan He, and Bin Lin. "Innovative Experimental Project Design of a Digital Oscilloscope Using FPGA Technology." In 2024 IEEE 2nd International Conference on Electrical, Automation and Computer Engineering (ICEACE). IEEE, 2024. https://doi.org/10.1109/iceace63551.2024.10898918.

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Blumhagen, Levi, and Jeff Delorme. "Alternative Method for Recording Coating Conductance Data on Horizontally Directionally Drilled and Thrust-Bored Pipe." In CORROSION 2017. NACE International, 2017. https://doi.org/10.5006/c2017-09598.

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Abstract An alternative method to record the potential shift when performing a coating conductance test outlined in NACE TM0102-021 is proposed. This method utilizes an oscilloscope rather than a digital multimeter to capture the potential shift when performing the applied current method. This procedure was developed for short sections of bored pipeline where it was found that the potential shift and subsequent polarization decay occurred in a timeframe less than the digital multimeter could display. Results obtained for reported coating conductance values are compared with those recorded using a digital multimeter. Utilizing the oscilloscope proved to be an effective method for determining the potential shift of a short bored section of pipe where the rate of polarization decay posed an issue.
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Yusuf, Arba’i, Wahyu Widada, Warsito Purwo Taruno, and Imamul Muttakin. "Analysis of the Effect of Analog Switches on the Digital Signal Oscilloscope Circuit." In 2024 International Conference on Informatics Electrical and Electronics (ICIEE). IEEE, 2024. https://doi.org/10.1109/iciee63403.2024.10920421.

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Hock, Vincent F., and Lewis F. Setliff. "Off Potential Measuring Devices for Underground Steel Storage Tanks." In CORROSION 1992. NACE International, 1992. https://doi.org/10.5006/c1992-92478.

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Abstract Instant off potential (IOP) measurements allow the polarized potential of a cathodically protected structure to be determined in the field. Potentials obtained using two commercially available devices for measuring IOP's were compared in the field to readings obtained using a recording oscilloscope and a digital voltmeter. Test data including waveform analysis for a cathodically protected underground storage tank is presented.
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Zhao, Yu, Peng Ye, Zhihong Chen, Jie Meng, Kuojun Yang, and Qinchuan Zhang. "A General Multi-ratio Interpolation Architecture Based on Frequency Response Mask Filter in Digital Storage Oscilloscope." In 2024 IEEE AUTOTESTCON. IEEE, 2024. http://dx.doi.org/10.1109/autotestcon47465.2024.10697511.

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Ingole, Rajeshwari, Mallikarjun Bhavanari, Prajwal Nataraj, and Anish Bekal. "A Low-Cost Portable Oscilloscope Using a 14-Bits High-Speed Analog-to-Digital Converter Module." In 2024 Third International Conference on Artificial Intelligence, Computational Electronics and Communication System (AICECS). IEEE, 2024. https://doi.org/10.1109/aicecs63354.2024.10956739.

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Karmakar, Samit, Priyanshu Mazumder, Animesh Dutta, et al. "Development of a Cost-Effective and Portable Digital Storage Oscilloscope Using Raspberry Pi Pico and Mobile App." In 2025 8th International Conference on Electronics, Materials Engineering & Nano-Technology (IEMENTech). IEEE, 2025. https://doi.org/10.1109/iementech65115.2025.10959540.

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Hock, Vincent F., Vicki L. Van Blaricum, Wesley A. Houtz, and Cpt(p) Lewis F. Setliff. "Instant-Off Potential and Polarization Decay Techniques for Evaluation of an Immersed Steel Structure." In CORROSION 1994. NACE International, 1994. https://doi.org/10.5006/c1994-94503.

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Abstract:
Abstract Several devices and techniques for evaluating the condition of a coated and cathodically protected steel lock gate were tested in the field. Polarization decay and polarization resistance (E log I) measurements were conducted on the gates to determine the feasibility of using these techniques for in situ evaluation of the coating condition. In addition, two commerically available devices for measuring instant-off potentials were used to evaluate the cathodic protection system. Potentials obtained using these instruments were compared with the readings obtained using a recording oscilloscope and a digital multimeter. Results will be presented and discussed.
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10

Bachurin, P. A., A. V. Geist, D. V. Makarov, and A. N. Reshetnikov. "Digital control system oscilloscope." In 2012 IEEE 11th International Conference on Actual Problems of Electronics Instrument Engineering (APEIE). IEEE, 2012. http://dx.doi.org/10.1109/apeie.2012.6628975.

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Reports on the topic "Digital oscilloscope"

1

Johnson, M., and M. Matulik. Procedure to determine the two channel timing measurement accuracy and precision of a digital oscilloscope. Office of Scientific and Technical Information (OSTI), 1994. http://dx.doi.org/10.2172/10105465.

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2

Verluyten, L., and M. W. Peters. Online monitoring of laserpulses using the GPIB-interface of a Tektronix 2430 Digital Storage Oscilloscope. Office of Scientific and Technical Information (OSTI), 1987. http://dx.doi.org/10.2172/6034768.

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