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1	DATA ACQUISITION SYSTEMS FOR AUDIO-FREQUENCY, MECHANICAL-TESTING APPLICATIONS — RECENT DEVELOPMENTS 2001 — Smith, Strether 10 1900 (has links) International Telemetering Conference Proceedings / October 22-25, 2001 / Riviera Hotel and Convention Center, Las Vegas, Nevada / The objective of any data acquisition system is to make accurate measurements of physical phenomena. Many of the phenomena to be characterized contain data that is in the audio-frequency range between 0 and 50,000 Hertz. Examples include structural vibration, wind-tunnel measurements, turbine engines and acoustics in air and water. These tests often require a large number of channels and may be very expensive. In some cases, there may be only one opportunity to acquire the data. This paper describes a testing/measurement philosophy and the use of advances in available hardware/software systems to implement the requirements. Primary emphasis is on robustness (assurance that critical data is properly recorded), measurement/characterization of unexpected results (generated by accidents or unexpected behavior), and test safety (for both the test article and the facility). Finally, a data acquisition system that encompasses the features discussed is described. Digital Data Acquisition Mechanical Testing Acoustic Vibration
2	Making TOFu : Fusion Plasma Neutron Emission Spectrometry with a Fully Digital Data Acquisition System Skiba, Mateusz January 2016 (has links) TOFu (Time-Of-Flight upgrade) is a fully digital data acquisition system based on 1 GSPS, 12 bit digitisers for the TOFOR (Time-Of-Flight spectrometer Optimised for Rate) fusion neutron spectrometer at JET. The system has been assessed, developed and subsequently tested during experimental campaigns at JET. A detailed presentation is provided, describing the electronics setup, as well as solutions to challenges related to time-alignment and synchronisation of the signal lines and digitisers. The system enables kinematic discrimination of spectral background, based on associated time and energy measurements. This technique has been tested with synthetic data, evaluated, and compared to experimental results. The kinematic background discrimination method is shown to provide improvements in signal-to-background ratio of up to 500 % in certain spectral regions. TOFOR is optimised for spectrometry of deuterium-deuterium fusion neutron emission at JET. The primary purpose of TOFu is to enable TOFOR to retain these spectrometric capabilities in the presence of a strong background of high-energy deuterium-tritium fusion emission neutrons, in a forthcoming deuterium-tritium fusion plasma campaign at JET. However, the improvement in signal-to-background ratio also allows for detailed studies of low-intensity spectral components, such as the contribution due to neutrons scattering off the internal wall of the JET tokamak before impinging on the TOFOR sight line. Satisfying experimental results pertaining to this aspect of spectral analysis with TOFu data are shown. Finally, a conceptual backscattering time-of-flight spectrometer, based on deuterated scintillator detectors is presented. The backscattering time-of-flight technique is shown to be able to provide high-resolution spectrometric capabilities of deuterium-tritium fusion plasma neutron emission. Studies with synthetic data are used to demonstrate these capabilities and the effects of the developed background discrimination techniques on deuterium-tritium fusion neutron spectra obtained with the instrument. fusion plasma diagnostics neutron spectrometry TOFOR tokamak JET digital data acquisition
3	FPGA based data acquistion and digital pulse processing for PET and SPECT Bousselham, Abdel Kader January 2007 (has links) <p>The most important aspects of nuclear medicine imaging systems such as Positron Emission Tomography (PET) or Single Photon Emission Computed Tomography (SPECT) are the spatial resolution and the sensitivity (detector efficiency in combination with the geometric efficiency). Considerable efforts have been spent during the last two decades in improving the resolution and the efficiency by developing new detectors. Our proposed improvement technique is focused on the readout and electronics. Instead of using traditional pulse height analysis techniques we propose using free running digital sampling by replacing the analog readout and acquisition electronics with fully digital programmable systems.</p><p>This thesis describes a fully digital data acquisition system for KS/SU SPECT, new algorithms for high resolution timing for PET, and modular FPGA based decentralized data acquisition system with optimal timing and energy. The necessary signal processing algorithms for energy assessment and high resolution timing are developed and evaluated. The implementation of the algorithms in field programmable gate arrays (FPGAs) and digital signal processors (DSP) is also covered. Finally, modular decentralized digital data acquisition systems based on FPGAs and Ethernet are described.</p> Digital signal processing positron emission tomography single photon computed tomography field programmable gate arrays digital signal processors digital data acquisition free running clock sampling Physics Fysik
4	FPGA based data acquistion and digital pulse processing for PET and SPECT Bousselham, Abdel Kader January 2007 (has links) The most important aspects of nuclear medicine imaging systems such as Positron Emission Tomography (PET) or Single Photon Emission Computed Tomography (SPECT) are the spatial resolution and the sensitivity (detector efficiency in combination with the geometric efficiency). Considerable efforts have been spent during the last two decades in improving the resolution and the efficiency by developing new detectors. Our proposed improvement technique is focused on the readout and electronics. Instead of using traditional pulse height analysis techniques we propose using free running digital sampling by replacing the analog readout and acquisition electronics with fully digital programmable systems. This thesis describes a fully digital data acquisition system for KS/SU SPECT, new algorithms for high resolution timing for PET, and modular FPGA based decentralized data acquisition system with optimal timing and energy. The necessary signal processing algorithms for energy assessment and high resolution timing are developed and evaluated. The implementation of the algorithms in field programmable gate arrays (FPGAs) and digital signal processors (DSP) is also covered. Finally, modular decentralized digital data acquisition systems based on FPGAs and Ethernet are described. Digital signal processing positron emission tomography single photon computed tomography field programmable gate arrays digital signal processors digital data acquisition free running clock sampling Physics Fysik
5	Analysis Of Conventional Low Voltage Power Line Communication Methods For Automatic Meter Reading And The Classification And Experimental Verification Of Noise Types For Low Voltage Power Line Communication Network Danisman, Batuhan 01 February 2009 (has links) (PDF) In this thesis, the conventional low voltage power line communication methods is investigated in the axis of automated meter reading applications and the classification and experimental verification of common noise types for low voltage power line communication network. The investigated system provides the real time transmission of electricity consumption data recorded by electricity meters, initially to a local computer via a low voltage line through a low speed PLC (Power Line Carrier) environment and subsequently to a corporate network through a high speed data transmission medium. The automated meter system provides a more effective tracking and data acquisition, a more detailed and vigorous knowledge about consumer behavior for subscriber assessment in electricity distribution in association with a brand new management and system supervision concept in electricity distribution control and management technology. The theoretical studies are experimentally verified for the Turkish low voltage power infrastructure through laboratory experiments performed in METU Electrical and Electronics Engineering Department, Electrical Machines and Drives Laboratory and R&amp / D Laboratories of MAKEL facilities in Hadimk&ouml / y. The single phase voltage of the mains line between the phase and neutral is monitored to exhibit the disturbing effects of various noise sources. The resulting voltage spectrum is logged by using digital data acquisition devices in time and frequency domain. The waveforms are converted to frequency domain using the Fast Fourier Transform (FFT) functions of the MATLAB. The experimental results are compared to the theoretical findings obtained through literature survey. QA General 15707
6	Aufbau und Charakterisierung einer Frisch-Gitterionisationskammer für die Spektroskopie niedrigster spezifischer Aktivitäten Krüger, Felix 24 March 2014 (has links) (PDF) Im Rahmen dieser Arbeit wurde eine Frisch-Gitterionisationskammer zum Messen kleinster spezifischer Alphaaktivitäten realisiert. Im konkreten Fall soll der Detektor dafür genutzt werden, die Halbwertszeit von 144Nd erneut zu bestimmen. Da diese sehr lang (T1/2 = (2,29 ± 0,16) · 10^15 Jahre) und die Reichweite der emittierten Alphateilchen in Feststoffen sehr gering ist, können nur sehr dünne Proben untersucht werden. Die Fläche der Proben sollte sehr groß sein, um die nötige Aktivität zu erhalten. Im Vergleich haben sich Gitterionisationskammern als das geeignetste Detektorkonzept erwiesen. Es wurde eine Kammer realisiert, welche aus zwei Gitterionisationskammern mit geteilter Anode besteht. Mit Hilfe dieses Aufbaus ist es möglich den Detektornulleffekt zu reduzieren. Die Auslese der auf den Detektorelektroden induzierten Ladung erfolgt mit Hilfe eines Analog-Digital-Konverters. Die Auswertung der gewonnenen Daten wird vollständig nach der Messung durchgeführt. Anhand einer Pulsformanalyse können verschiedene Informationen über jedes, im Detektor stattgefundene, Ereignis gewonnen werden. So ist es möglich den Gitterdurchgriff und die damit verbundene Winkelabhängigkeit der Pulshöhen zu korrigieren und somit die Energieauflösung des Detektors zu verbessern. Es wird eine Energieauflösung von 0,86 % bei 5,1 MeV erreicht. Die Charakterisierung der Ereignisse wird außerdem für die Reduktion des Detektornulleffekts herangezogen. Aufgrund verschiedener Bedingungen, die für ein zu erwartendes Alphaereignis notwendig sind, kann ein Großteil der, die Messung störenden Ereignisse, unterdrückt werden. So kann der Nulleffekt im Energiebereich von 1 MeV bis 2,2 MeV von 435 Ereignissen pro Tag ohne Charakterisierung um etwa ein Faktor 20 auf 21,6 Ereignisse pro Tag mit Charakterisierung reduziert werden. Die Nachweiseffizienz wird davon nicht merklich beeinträchtigt. Für ausreichend lange Messzeiten ist eine Nachweisgrenze von weniger als 10 Ereignissen pro Tag zu erwarten. Für eine, für diesen Aufbau geeignete, Targetgeometrie ist mit etwa 50 Alphazerfällen des 144Nd pro Tag zu rechnen. Mit einer Nachweiseffizienz von etwas unter 50 % sollte die Messung am 144Nd gut möglich sein. / The realization of this work was the usage of a Frisch grid ionization chamber for measuring the lowest specific alpha activity. In the practical case the detector should be used to remeasure the half life of 144Nd. Only very thin targets can be used, due to the extreme long half life and the very short range of alpha particles in matter. The area of the samples must be big enough to get the required activity. In comparison gridded ionization chambers are the most practical devices. The chamber was realized in that way, that two gridded chambers shares a common anode. This could be used to minimize the detector background. The charge, which was induced in the detector electrodes, is acquired by an analog to digital converter. The full analysis of the data is done after the measurement. With the pulse form analysis it is possible to extract information about every event occurring in the detector. It is also possible to correct the grid inefficiency and the correlated angle dependence of the pulse height. This improves the energy resolution. A resolution of 0.86 % at 5.1 MeV is possible. The characterization of the events is also used for the suppression of the detector background. Due to different conditions for an assumed alpha event the majority of the events which disturbs the measurement could be removed. So it is possible to suppress the background in the range between 1 MeV to 2.2 MeV of 435 events per day without the characterization to 21.6 events per day with characterization, which is a factor of roughly 20. The detection efficiency is not noticeably effected. For sufficiently long measurements a lowest limit of detection of 10 counts per day is expectable. For a target geometry which can be used with this setup, about 50 alpha decays of 144Nd per day will occur. With a detection efficiency a bit below 50 % the measurement on Nd should be possible. Gitterionisationskammer Alphazerfall Neodym 144 Digitale Ausleseelektronik Frisch grid ionisation chamber alpha decay neodym 144 digital data acquisition ddc:530 rvk:UN 3600
7	Aufbau und Charakterisierung einer Frisch-Gitterionisationskammer für die Spektroskopie niedrigster spezifischer Aktivitäten Krüger, Felix 19 December 2013 (has links) Im Rahmen dieser Arbeit wurde eine Frisch-Gitterionisationskammer zum Messen kleinster spezifischer Alphaaktivitäten realisiert. Im konkreten Fall soll der Detektor dafür genutzt werden, die Halbwertszeit von 144Nd erneut zu bestimmen. Da diese sehr lang (T1/2 = (2,29 ± 0,16) · 10^15 Jahre) und die Reichweite der emittierten Alphateilchen in Feststoffen sehr gering ist, können nur sehr dünne Proben untersucht werden. Die Fläche der Proben sollte sehr groß sein, um die nötige Aktivität zu erhalten. Im Vergleich haben sich Gitterionisationskammern als das geeignetste Detektorkonzept erwiesen. Es wurde eine Kammer realisiert, welche aus zwei Gitterionisationskammern mit geteilter Anode besteht. Mit Hilfe dieses Aufbaus ist es möglich den Detektornulleffekt zu reduzieren. Die Auslese der auf den Detektorelektroden induzierten Ladung erfolgt mit Hilfe eines Analog-Digital-Konverters. Die Auswertung der gewonnenen Daten wird vollständig nach der Messung durchgeführt. Anhand einer Pulsformanalyse können verschiedene Informationen über jedes, im Detektor stattgefundene, Ereignis gewonnen werden. So ist es möglich den Gitterdurchgriff und die damit verbundene Winkelabhängigkeit der Pulshöhen zu korrigieren und somit die Energieauflösung des Detektors zu verbessern. Es wird eine Energieauflösung von 0,86 % bei 5,1 MeV erreicht. Die Charakterisierung der Ereignisse wird außerdem für die Reduktion des Detektornulleffekts herangezogen. Aufgrund verschiedener Bedingungen, die für ein zu erwartendes Alphaereignis notwendig sind, kann ein Großteil der, die Messung störenden Ereignisse, unterdrückt werden. So kann der Nulleffekt im Energiebereich von 1 MeV bis 2,2 MeV von 435 Ereignissen pro Tag ohne Charakterisierung um etwa ein Faktor 20 auf 21,6 Ereignisse pro Tag mit Charakterisierung reduziert werden. Die Nachweiseffizienz wird davon nicht merklich beeinträchtigt. Für ausreichend lange Messzeiten ist eine Nachweisgrenze von weniger als 10 Ereignissen pro Tag zu erwarten. Für eine, für diesen Aufbau geeignete, Targetgeometrie ist mit etwa 50 Alphazerfällen des 144Nd pro Tag zu rechnen. Mit einer Nachweiseffizienz von etwas unter 50 % sollte die Messung am 144Nd gut möglich sein. / The realization of this work was the usage of a Frisch grid ionization chamber for measuring the lowest specific alpha activity. In the practical case the detector should be used to remeasure the half life of 144Nd. Only very thin targets can be used, due to the extreme long half life and the very short range of alpha particles in matter. The area of the samples must be big enough to get the required activity. In comparison gridded ionization chambers are the most practical devices. The chamber was realized in that way, that two gridded chambers shares a common anode. This could be used to minimize the detector background. The charge, which was induced in the detector electrodes, is acquired by an analog to digital converter. The full analysis of the data is done after the measurement. With the pulse form analysis it is possible to extract information about every event occurring in the detector. It is also possible to correct the grid inefficiency and the correlated angle dependence of the pulse height. This improves the energy resolution. A resolution of 0.86 % at 5.1 MeV is possible. The characterization of the events is also used for the suppression of the detector background. Due to different conditions for an assumed alpha event the majority of the events which disturbs the measurement could be removed. So it is possible to suppress the background in the range between 1 MeV to 2.2 MeV of 435 events per day without the characterization to 21.6 events per day with characterization, which is a factor of roughly 20. The detection efficiency is not noticeably effected. For sufficiently long measurements a lowest limit of detection of 10 counts per day is expectable. For a target geometry which can be used with this setup, about 50 alpha decays of 144Nd per day will occur. With a detection efficiency a bit below 50 % the measurement on Nd should be possible. info:eu-repo/classification/ddc/530 ddc:530

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