Thematische Bibliographien / Virtual oscilloscope / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Virtual oscilloscope“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 17. Februar 2022

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1

Qu, Ai Ling, Hong Mei Liu, Yan Ling Lv, Ru Kun Han und Qiu Yan Liang. „The Design and Implementation of Virtual Digital Oscilloscope“. Advanced Materials Research 898 (Februar 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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Lincoln, James. „Using an online virtual oscilloscope“. Physics Teacher 58, Nr. 7 (Oktober 2020): 526–27. http://dx.doi.org/10.1119/10.0002084.

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Tektas, Gozde, und Cuneyt Celiktas. „Comparison of a designed virtual oscilloscope with a real oscilloscope“. EPJ Web of Conferences 100 (2015): 04004. http://dx.doi.org/10.1051/epjconf/201510004004.

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4

Shi, Shu Lin, und Guo Rui Pi. „Design of Virtual Oscilloscope Based on S3C2410“. Advanced Materials Research 189-193 (Februar 2011): 227–30. http://dx.doi.org/10.4028/www.scientific.net/amr.189-193.227.

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: This topic has designed a kind of virtual oscilloscope based on the embedded technical. On the hardware the S3C2410+IDT7204 structure were used, on the software real-time operating system uC/OS-II were used in the design of embedded virtual oscilloscope. ARM9 microprocessor's high speed handling ability are fully used, as well as FIFO in the read-write control logic, the superiority in high speed data exchange aspect, realizes the double channel synchronization profile demonstration. the multi-task run and the real-time processing were realized by using on the uC/OS-II operating system's in ARM9 microprocessor transplant. This oscilloscope has the cost lowly, to be possible to as the common oscilloscope, also to be possible to as an intelligent module the merit which used in the embedded system.
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Bhunia, C., S. Giri, S. Kar, S. Haldar und P. Purkait. „A Low-Cost PC-Based Virtual Oscilloscope“. IEEE Transactions on Education 47, Nr. 2 (Mai 2004): 295–99. http://dx.doi.org/10.1109/te.2004.825527.

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Hui, Zhang, Mei Shan Jin, Yan Nan Zhai, Ling Gao und Jun Li. „The Design of Digital Storage Oscilloscope Based on Virtual Instrument“. Applied Mechanics and Materials 687-691 (November 2014): 1109–12. http://dx.doi.org/10.4028/www.scientific.net/amm.687-691.1109.

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We use LabVIEW software and PCI-6024E data acquisition card to design the virtual digital storage oscilloscope. The oscilloscope makes full use of the capabilities of computer storage and connected with the external device.The measurement waveform can storage once, long-term preservation and multiple display,so that we can observe the signal of single change and slow change. Waveform have a variety of ways output. The hardware is open, we can increase the software module by modifying to increase the function of the instrument.
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Rana, K. P. S., und S. H. Khan. „A DAQ card based mixed signal virtual oscilloscope“. Measurement 41, Nr. 9 (November 2008): 1032–39. http://dx.doi.org/10.1016/j.measurement.2008.02.005.

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Wu, Feiqing, Fengyuan Yang, Dongdong Ma und Chengyu Wu. „Design of virtual digital oscilloscope based on LabVIEW“. E3S Web of Conferences 268 (2021): 01059. http://dx.doi.org/10.1051/e3sconf/202126801059.

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Electrical and electronic experiment teaching is an indispensable and important part of engineering teaching. Oscilloscope is an indispensable experimental instrument in the teaching of these experiments, which is used to measure the electrical signals in the experimental process for analysis and processing. In this paper, a dual-channel virtual oscilloscope was designed based on the PC 16-bit sound card, which could correctly collect electronic signals within ±1V. Through LabVIEW graphical programming and multi-threading technology, these functions such as waveform display, channel selection control, parameter measurement and display, waveform storage and playback were realized. The innovation of this design is that it could automatically generate experimental report, simplifying the tedious operations such as drawing waveforms and filling parameters, finally quickly getting illustrated experimental report. From the test results, it can meet the requirements of daily experimental teaching, and it is of great significance to improve the quality of electrical and electronic experimental teaching.
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Niu, Jun Hao, und Zhi Li. „Research on Portable Virtual Oscilloscope Based on USB Bus“. Advanced Materials Research 459 (Januar 2012): 114–17. http://dx.doi.org/10.4028/www.scientific.net/amr.459.114.

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A designed method of portable virtual oscilloscope with USB interface is proposed in this paper. The programmable gain amplifier (attenuator) circuit is used to adjust the different range of inputting signal to the A/D converter's. The A/D convert is realized by using ADS830E, which is a chip with maxim 60MHz sample rate and 8-bit data width. CY7C68013A, one chip of EZ-USB FX2 series, is used to achieve the data transfer to computer in block mode. The FPGA is programmed as an external host controller to control the gain amplification and attenuation circuit, and provide the sample clock for high-speed A/D converter ADS830E, and send the data to the Slave-FIFO. Application software is designed with VC++ platform to calculate and display the received data graphically.
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Niu, Jun Hao, und Zhi Li. „Research on Portable Virtual Oscilloscope Based on USB Bus“. Advanced Materials Research 459 (Januar 2012): 114–17. http://dx.doi.org/10.4028/scientific5/amr.459.114.

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11

Ko, C. C., S. H. Chen, Y. Zhuang, S. Y. Hu, V. Ramakrishnan, B. M. Chen und R. Chen. „A large-scale Web-based virtual oscilloscope laboratory experiment“. Engineering Science & Education Journal 9, Nr. 2 (01.04.2000): 69–76. http://dx.doi.org/10.1049/esej:20000204.

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12

Adams, R. K. „The virtual oscilloscope: an impedance match to beginning ECE students“. IEEE Transactions on Education 34, Nr. 4 (1991): 350–56. http://dx.doi.org/10.1109/13.102853.

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GANDHI, GAURAV, GYÖRGY CSEREY, JOHN ZBROZEK und TAMÁS ROSKA. „ANYONE CAN BUILD CHUA'S CIRCUIT: HANDS-ON-EXPERIENCE WITH CHAOS THEORY FOR HIGH SCHOOL STUDENTS“. International Journal of Bifurcation and Chaos 19, Nr. 04 (April 2009): 1113–25. http://dx.doi.org/10.1142/s0218127409023536.

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Chaos is a physical and mathematical phenomenon discovered by E. Lorenz in 1963. The first simple electronic implementation had been invented by L. O. Chua in 1984. This electronic circuit, called Chua's circuit was designed for ease of implementation. In the current brief we will explain chaos by building Chua's chaotic circuit using our Chua's circuit kit with inexpensive components. For readers without access to an oscilloscope, this paper proposes the use of a laptop/Personal Computer to capture the voltage waveforms generated from the circuit and plot the waveforms on a computer screen using a virtual oscilloscope software provided by the authors. The kit is available, the software is downloadable.
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Xu, Jing Bo, Yong Zhong Zhao und Hong Tao Yu. „HP3 Interface Program by Labview“. Applied Mechanics and Materials 602-605 (August 2014): 3839–42. http://dx.doi.org/10.4028/www.scientific.net/amm.602-605.3839.

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This paper aims to discuss about the method of HP3 interface program with hardware by Virtual instrument-labview. This paper studies the characteristic and advantages of labview, analyzes the HP3(Handyprobe difference USB oscilloscope) hardware interface way and discuss the connection on hardware labview. The actual interface connection method is given in the end.
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Gong, Ping, und Wei Zhou. „Design and Implementation of Multifunctional Virtual Oscilloscope Using USB Data-Acquisition Card“. Procedia Engineering 29 (2012): 3245–49. http://dx.doi.org/10.1016/j.proeng.2012.01.474.

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16

Zhang, Xing Cheng, Mao Kui Li, Jian Qiang Liu und Yun Xu Fu. „An Integrated Measurement Platform for Piezoelectric Transformer Based on Virtual Instruments“. Advanced Materials Research 301-303 (Juli 2011): 1507–10. http://dx.doi.org/10.4028/www.scientific.net/amr.301-303.1507.

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This paper presented an integrated measurement platform for piezoelectric transformer based on virtual instruments. Programmable signal generator was adopted to stimulate the piezoelectric transformer. Then an USB oscilloscope was used to acquire the response signal. We could get the results by analyzing the experimental data. The measurement accuracy and efficiency were greatly improved in the virtual instruments platform compared with the conventional measurement method. It was of great significance to the scientific research. Section I pointed out the problems in conventional piezoelectric transformer parameters measurement method and gave a solution of using virtual instruments technology to solve these problems. Section II described the hardware design of the measurement system. Section III described the software design of the virtual instruments measurement system. Conventional measurement methods and virtual instruments measurement method were compared in section IV.
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Fuada, Syifaul, und Amy Hamidah Salman. „Virtual Labs of Analog Oscillator“. International Journal of Online Engineering (iJOE) 12, Nr. 08 (30.08.2016): 31. http://dx.doi.org/10.3991/ijoe.v12i08.5911.

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This paper discusses the functional system of a learning media product development; the design and implementation of a virtual lab with analog oscillator comprised of the following: i) Wien Bridge oscillator, ii) Colpitts oscillator, iii) Hartley oscillator and, iv) Astable Multivibrator. The virtual laboratory was built using Adobe Flash CS6 Action Script 3.0. This media can be accessed offline on a computer standalone based on the extension .exe or .swf and constructed with 24 frames per second (fps). This media can be operated by changing the Resistor (R), Inductor (L) and Capacitor (C) components via ‘plug and play’ to the tool-kit, or trainer kit, while the output can be seen in the measuring devices, namely: the frequnecy counter and oscilloscope. The second product is a digital jobsheet as a supplementary element for the practical, which contains prequisites for conducting practical use, introductory, and anatomic information of the virtual lab, as well as the directions for using the e-jobsheet and virtual lab, the practical procedures, and the test items for evaluation.
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Ohchi, Masashi, Noriyuki Aoki, Tatsuya Furukawa und Kenji Furukawa. „Design and Implementation of Study Support System for Electric Circuit Using Virtual Oscilloscope“. IEEJ Transactions on Fundamentals and Materials 126, Nr. 7 (2006): 570–76. http://dx.doi.org/10.1541/ieejfms.126.570.

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19

Yuan, Jimin, Xiaoling Li und Tiangxiang Gu. „Design of virtual digital oscilloscope based on single counter to control sampling storage“. JOURNAL OF ELECTRONIC MEASUREMENT AND INSTRUMENT 2009, Nr. 2 (06.01.2010): 75–78. http://dx.doi.org/10.3724/sp.j.1187.2009.02075.

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20

Dastoori, K., und B. Makin. „Adhesion measurements for electrostatic powder coatings using drop test rig and virtual oscilloscope“. Journal of Electrostatics 51-52 (Mai 2001): 509–14. http://dx.doi.org/10.1016/s0304-3886(01)00125-5.

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21

Li, Ming, Chun Lan Jiang und Zai Cheng Wang. „Application of Virtual Instrument in Time Delay Signal Analysis“. Applied Mechanics and Materials 40-41 (November 2010): 990–94. http://dx.doi.org/10.4028/www.scientific.net/amm.40-41.990.

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Time delay estimation is the basis of target location of multi-sensor network, while the basic analysis of the signal is of key importance to the time delay estimation. In this paper, a time delay analysis system is designed by virtual instrument development tools. The analysis system contains: virtual oscilloscope, virtual spectrum analyzer, virtual filter and virtual time delay analyzer. Using this analysis system on a set of field collected acoustic target signal, spectrum analysis and filtering is made. Then the time delay estimation has been carried out for several sampling data segments selected by certain rules, and curve of the time delay vs. time is given. Analysis shows the main frequency of the target signal: 85Hz, 13Hz, 170Hz and 125Hz. The regular pattern of the time delay curve is consistent with the target motion. Application reveals that the system is helpful in the research of time delay estimation.
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Duan, Xin Wen, und Hao Sun. „Design and Implementation of the Multi-Functional Virtual Instrument Based on LabVIEW“. Applied Mechanics and Materials 556-562 (Mai 2014): 1737–40. http://dx.doi.org/10.4028/www.scientific.net/amm.556-562.1737.

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According to the rapid development and widespread application of virtual instrument technology, a design with serial port and the audio card of PC as the main hardware and LabVIEW as the software development platform is proposed. Not only can it generates and output basic waveform, arbitrary formula wave and hand-painted waveform in real time, but also realizes the function of the oscilloscope system, including: channel selection, collecting and display waveform data in real-time, parameter measurement, spectrum analysis etc. This multi-functional virtual instrument has the advantages of friendly-machine interface, easy to transplant and modify and good scalability. And it has broad prospects in the field of testing, measurement and teaching practice.
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Li, Hai Ming, Li Mei Zhang und Feng Sa. „Design the Integrated Multipurpose Instrument Calibrating Equipment Based on the PXI and LabVIEW“. Advanced Materials Research 1037 (Oktober 2014): 134–38. http://dx.doi.org/10.4028/www.scientific.net/amr.1037.134.

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According to the function, the technical indexes and the cost control etc, we select the embedded control computer and virtual instrument module based on the PXI, and developed the integrated multipurpose instrument calibrating equipment, it realized the field measurement and calibration of the electrical instrument away from the laboratory. The system is designed based on PXI and LabVIEW, it uses virtual instrument technology, automatic control technology and database technology, by combining these functional modules of NI, we realized the calibration of electrical instruments such as digital multimeter, signal generator, oscilloscope and cymometer etc. The system is used integrated design, and it is very flexible, it can be popularized and applied as working standard to troops, factories or schools etc.
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Bai, Yang, Chuncheng Zhang, Lvming Zeng und Guodong Liu. „Design of photoacoustic microscope system based on labVIEW platform“. MATEC Web of Conferences 309 (2020): 04016. http://dx.doi.org/10.1051/matecconf/202030904016.

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A photoacoustic microscope system based on virtual instrument development environment is presented, including ultrasonic sensor, digital oscilloscope, laser diode, personal calculation and other hardware platforms. and developed supporting software and image reconstruction algorithms. In the subcutaneous angiography experiment, the distribution characteristics of the ear blood vessels in mouse were completely reproduced perfectly, and the spatial resolution of the system can reach 14um. The system and method can potentially to develop into a non-invasive biological tissue structure and functional imaging technique.
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Ramos, Roberto, und Christopher Devers. „The iPad as a virtual oscilloscope for measuring time constants in RC and LR circuits“. Physics Education 55, Nr. 2 (08.01.2020): 023003. http://dx.doi.org/10.1088/1361-6552/ab606b.

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Tian, Tian, Zhen Yu Li, Tian Gao, Fang Yao Liu und Jian Wu. „Weak Signal Detection and Application in Electronic Experiment Based on Virtual Instrument“. Applied Mechanics and Materials 511-512 (Februar 2014): 294–300. http://dx.doi.org/10.4028/www.scientific.net/amm.511-512.294.

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Base on the virtual instrument technology, a micro signal measurement system was established and applied to the electronic teaching experiment. It is composed of PC, oscilloscope, signal generator, ac constant current source, low noise preamplifier and tested operational amplifier, etc. it can complete the measurement of uV weak voltage, uA weak current measure, wires and printing plate conductor resistance and inductance, amplifier open-loop amplitude frequency and phase frequency characteristics, and so on many aspects of modern electronic measurement experiment content. The system not only has the characteristics of functional diversity, measurement accuracy, and good graphic interface, simple operation and overcomes the shortcomings in the course of electronic technology experiment teaching, and play an important role on improving the experimental conditions,reducing the cost of experiments, raising the level of classroom teaching and practice of teaching.
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Pawliczek, Roland, und Piotr Soppa. „Measurement and Control System for Analysis of the Operation of the Stepper Motor“. Solid State Phenomena 260 (Juli 2017): 113–26. http://dx.doi.org/10.4028/www.scientific.net/ssp.260.113.

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The paper describes a control and measurement system for controlling and analysing operation of a stepper motor. The system design is based on the concept of virtual instrument, where data acquisition and transmission use standard solutions, whereas software serves both as a generator and a measurement system – an oscilloscope. The generator allows efficient control of motor operation in the following control modes: wave, full-step and half-step control. There were no winding powering sequence errors observed. The measurement system allows presenting and analysing voltage waveforms in individual windings with possibility to detect couplings and overvoltages. It was also shown that it is possible to detect locking of rotor rotation.The proposed virtual instruments have open structure, which enables extended analysis based on available measurements or expand range of measurements as long as measurement and control system instrumentation allows that.
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Li, Ming, Chun Lan Jiang, Zi Yuan und Zai Cheng Wang. „Virtual Instrument Applied in Seismic Time Delay Signal Process“. Advanced Materials Research 433-440 (Januar 2012): 2513–18. http://dx.doi.org/10.4028/www.scientific.net/amr.433-440.2513.

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It is very important to do some preliminary analysis and processing of the time delay signal before the time delay estimation for the target orientation of the multi-sensor network. In this paper, a virtual instrument time delay analysis system is designed, which contains: a virtual oscilloscope, a virtual spectrum analyzer, a virtual filter and a virtual time delay analyzer. By the use of this analysis system, the spectrum of the seismic target signal collected in the field is analyzed. Analysis shows the main frequency of the target signal: 13Hz, 85Hz, 170Hz, 125Hz. Distinctness of the time delay peak is proposed to describe the validation of the cross-correlation result. Based on the three main frequency components, signals were filtered by five filters and analyzed separately. Results were shown in figures of time delay vs. time, distinctness vs. time. Each curve in a figure corresponds to a certain number of points of cross correlation. According to the results, the frequency component from 8Hz to 30Hz is much more suitable for practical use. The regular pattern of the time delay curve is consistent with the target motion. Application reveals that the system is helpful in the research of time delay estimation.
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Soroko, Nataliia. „USING VIRTUAL REALITY IN SUPPORT STEAM APPROACH FOR GENERAL SCHOOL“. Scientific Bulletin of Uzhhorod University. Series: «Pedagogy. Social Work», Nr. 1(48) (27.05.2021): 387–90. http://dx.doi.org/10.24144/2524-0609.2021.48.387-390.

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The article considers the main possibilities of virtual reality tools to support the STEAM approach in general education institutions. The focus is on the benefits of virtual reality for the implementation of STEAM education. The statistics of the law firm Perkins Coie LLP and XR Association «Determining the role of industry in the future of immersive technologies» on the research of the implementation of augmented and virtual realities in 2019. The attitude of teachers of general education institutions of Ukraine to the use of virtual reality in the implementation of the STEAM approach is analyzed. Particular attention is paid to VR applications for the STEAM approach in general school. Some virtual reality applications for general education institutions are offered, such as Google Expeditions, 3D Organon Anatomy, Lecture VR, StarTracker VR-Mobile Sky Map, Nano2d, VR Roller Coaster, Volumetric oscilloscope, Calcflow and others. We concluded that the use of virtual reality opens up many new opportunities in learning and STEAM education that are too complex, time consuming or expensive with traditional approaches. Virtual reality is able not only to provide information about the phenomenon itself, but also to demonstrate it with any degree of detail. A virtual educational environment is a creative environment in which learning is possible with the motivation of students, their emotional uplift and a positive, optimistic mood. A necessary condition for the use of a virtual educational environment is the implementation of a personality-oriented approach and the development and improvement of teaching methods, in particular in the fields of STEAM. Prospects for further research are the design of the STEAM model of oriented educational environment using virtual reality tools.
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Tang, Shu Hong. „Study of XLPE Cable Materials Impurity Detecting Based on CCD Technology“. Advanced Materials Research 383-390 (November 2011): 3099–104. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.3099.

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In order to improve the present accuracy and speed of XLPE cable materials impurity testing, we set up the impurity testing system using the TCD132D chip and design the hardware driving circuits. Process the acquisition data using the virtual oscilloscope DSO2902. The method can discriminate whether the impurity particles exist or not effectively. The result shows that this system can measure the size of impurity particles of XLPE cable materials correctly, it also can find out the accurate location and numbers of impurity particles. The resolving power of this method can reach 20 µm and the error is less than 10%.The possibility that the impurity particles can be checked out is up to 100%.
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Medugu, J. D. „Virtual Oscilloscope: Alternative Instructional Materials For Teaching Electronics At The Technical Colleges, In North East Geopolitical Zone, Nigeria“. IOSR Journal of Research & Method in Education (IOSRJRME) 1, Nr. 2 (2013): 38–43. http://dx.doi.org/10.9790/7388-0123843.

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Yang, Yan, Xiao Feng Chen und Qing Liu. „Development of GIS PD Location System Based on LabVIEW“. Advanced Materials Research 1044-1045 (Oktober 2014): 1469–72. http://dx.doi.org/10.4028/www.scientific.net/amr.1044-1045.1469.

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On-line detecting partial discharge inside GIS and locating the source of partial discharge spatially can discover the premonition of GIS insulation defects. This article introduces a system for partial discharge on-line detection and source locating, which is based on the hardware consisting essentially of ultrasonic sensors, prepositive signal amplifiers, a TDS3034C oscilloscope and a laptop. The system is a virtual instrument based on LabVIEW platform, and it can sample the ultrasonic signals generated by partial discharge in real time, and provide a friendly human-computer interaction interface. This article deeply discussed the partial discharge signal acquisition, signal de-noising, multi-way signal delay calculation and algorithm based on the time lag. The result implies that the system can validly detect and locate partial discharge, and spatially demonstrate the coordinate of the source of partial discharge through human-computer interaction interface.
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Gardner, Daniel, Michael Abato, Kevin H. Knuth, Robert DeBellis und Steven M. Erde. „Dynamic publication model for neurophysiology databases“. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 356, Nr. 1412 (29.08.2001): 1229–47. http://dx.doi.org/10.1098/rstb.2001.0911.

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We have implemented a pair of database projects, one serving cortical electrophysiology and the other invertebrate neurones and recordings. The design for each combines aspects of two proven schemes for information interchange. The journal article metaphor determined the type, scope, organization and quantity of data to comprise each submission. Sequence databases encouraged intuitive tools for data viewing, capture, and direct submission by authors. Neurophysiology required transcending these models with new datatypes. Time–series, histogram and bivariate datatypes, including illustration–like wrappers, were selected by their utility to the community of investigators. As interpretation of neurophysiological recordings depends on context supplied by metadata attributes, searches are via visual interfaces to sets of controlled–vocabulary metadata trees. Neurones, for example, can be specified by metadata describing functional and anatomical characteristics. Permanence is advanced by data model and data formats largely independent of contemporary technology or implementation, including Java and the XML standard. All user tools, including dynamic data viewers that serve as a virtual oscilloscope, are Java–based, free, multiplatform, and distributed by our application servers to any contemporary networked computer. Copyright is retained by submitters; viewer displays are dynamic and do not violate copyright of related journal figures. Panels of neurophysiologists view and test schemas and tools, enhancing community support.
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Khanna, Ghriti. „Design of Virtual Oscilloscope Using Labview“. International journal of Emerging Trends in Science and Technology, 06.02.2016. http://dx.doi.org/10.18535/ijetst/v3i02.02.

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35

Dias Pereira, J. M., Octavian Postolache und P. Silva Girao. „HART PROTOCOL ANALYSER BASED IN LABVIEW“. International Journal of Computing, 01.08.2014, 39–42. http://dx.doi.org/10.47839/ijc.3.2.284.

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Analysis of Highway Addressable Remote Transducer (HART) protocol is important in reliability evaluation of HART based systems. The present work proposes a virtual instrument based solution for HART signal analysis that includes a digital oscilloscope with GPIB interface, a HART modem, a PC with a GPIB interface board and a RS232 port, and a software component developed in LabVIEW. The HART analyser permits the visualisation of signals that correspond to the HART protocol, gives access to data coming from field instruments and has the ability to analyse and modify field instrument performance.
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