Multiframe digitization of x-ray (TV) images (abstract)

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Zeitschriftentitel:	Review of Scientific Instruments
Personen und Körperschaften:	Karpenko, V. A., Khil’chenko, A. D., Lysenko, A. P., Panchenko, V. E.
In:	Review of Scientific Instruments, 60, 1989, 7, S. 2335-2335
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	AIP Publishing
Schlagwörter:	Instrumentation

author_facet	Karpenko, V. A. Khil’chenko, A. D. Lysenko, A. P. Panchenko, V. E. Karpenko, V. A. Khil’chenko, A. D. Lysenko, A. P. Panchenko, V. E.
author	Karpenko, V. A. Khil’chenko, A. D. Lysenko, A. P. Panchenko, V. E.
spellingShingle	Karpenko, V. A. Khil’chenko, A. D. Lysenko, A. P. Panchenko, V. E. Review of Scientific Instruments Multiframe digitization of x-ray (TV) images (abstract) Instrumentation
author_sort	karpenko, v. a.
spelling	Karpenko, V. A. Khil’chenko, A. D. Lysenko, A. P. Panchenko, V. E. 0034-6748 1089-7623 AIP Publishing Instrumentation http://dx.doi.org/10.1063/1.1140760 <jats:p>The work in progress deals with the experimental search for a technique of digitizing x-ray TV images. The small volume of the buffer memory of the analog-to-digital (A/D) converter (ADC) we have previously used to detect TV signals made it necessary to digitize only one line at a time of the television raster and also to make use of gating to gain the video information contained in the whole frame. This paper is devoted to multiframe digitizing. The recorder of video signals comprises a broadband 8-bit A/D converter, a buffer memory having 128K words and a control circuit which forms a necessary sequence of advance pulses for the A/D converter and the memory relative to the input frame and line sync pulses (FSP and LSP). The device provides recording of video signals corresponding to one or a few frames following one after another, or to their fragments. The control circuit is responsible for the separation of the required fragment of the TV image. When loading the limit registers, the following input parameters of the control circuit are set: the skipping of a definite number of lines after the next FSP, the number of the lines of recording inside a fragment, the frequency of the information lines inside a fragment, the delay in the start of the ADC conversion relative to the arrival of the LSP, the length of the information section of a line, and the frequency of taking the readouts in a line. In addition, among the instructions given are the number of frames of recording and the frequency of their sequence. Thus, the A/D converter operates only inside a given fragment of the TV image. The information is introduced into the memory in sequence, fragment by fragment, without skipping and is then extracted as samples according to the addresses needed for representation in the required form, and processing. The video signal recorder governs the shortest time of the ADC conversion per point of 250 ns. As before, among the apparatus used were an image vidicon with luminophor conversion of x-radiation to light, and a single-crystal x-ray diffraction scheme necessary to form dynamic test objects from x-ray lines dispersed in space (the projections of the linear focus of an x-ray tube).</jats:p> Multiframe digitization of x-ray (TV) images (abstract) Review of Scientific Instruments
doi_str_mv	10.1063/1.1140760
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series	Review of Scientific Instruments
source_id	49
title	Multiframe digitization of x-ray (TV) images (abstract)
title_unstemmed	Multiframe digitization of x-ray (TV) images (abstract)
title_full	Multiframe digitization of x-ray (TV) images (abstract)
title_fullStr	Multiframe digitization of x-ray (TV) images (abstract)
title_full_unstemmed	Multiframe digitization of x-ray (TV) images (abstract)
title_short	Multiframe digitization of x-ray (TV) images (abstract)
title_sort	multiframe digitization of x-ray (tv) images (abstract)
topic	Instrumentation
url	http://dx.doi.org/10.1063/1.1140760
publishDate	1989
physical	2335-2335
description	<jats:p>The work in progress deals with the experimental search for a technique of digitizing x-ray TV images. The small volume of the buffer memory of the analog-to-digital (A/D) converter (ADC) we have previously used to detect TV signals made it necessary to digitize only one line at a time of the television raster and also to make use of gating to gain the video information contained in the whole frame. This paper is devoted to multiframe digitizing. The recorder of video signals comprises a broadband 8-bit A/D converter, a buffer memory having 128K words and a control circuit which forms a necessary sequence of advance pulses for the A/D converter and the memory relative to the input frame and line sync pulses (FSP and LSP). The device provides recording of video signals corresponding to one or a few frames following one after another, or to their fragments. The control circuit is responsible for the separation of the required fragment of the TV image. When loading the limit registers, the following input parameters of the control circuit are set: the skipping of a definite number of lines after the next FSP, the number of the lines of recording inside a fragment, the frequency of the information lines inside a fragment, the delay in the start of the ADC conversion relative to the arrival of the LSP, the length of the information section of a line, and the frequency of taking the readouts in a line. In addition, among the instructions given are the number of frames of recording and the frequency of their sequence. Thus, the A/D converter operates only inside a given fragment of the TV image. The information is introduced into the memory in sequence, fragment by fragment, without skipping and is then extracted as samples according to the addresses needed for representation in the required form, and processing. The video signal recorder governs the shortest time of the ADC conversion per point of 250 ns. As before, among the apparatus used were an image vidicon with luminophor conversion of x-radiation to light, and a single-crystal x-ray diffraction scheme necessary to form dynamic test objects from x-ray lines dispersed in space (the projections of the linear focus of an x-ray tube).</jats:p>
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author	Karpenko, V. A., Khil’chenko, A. D., Lysenko, A. P., Panchenko, V. E.
author_facet	Karpenko, V. A., Khil’chenko, A. D., Lysenko, A. P., Panchenko, V. E., Karpenko, V. A., Khil’chenko, A. D., Lysenko, A. P., Panchenko, V. E.
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description	<jats:p>The work in progress deals with the experimental search for a technique of digitizing x-ray TV images. The small volume of the buffer memory of the analog-to-digital (A/D) converter (ADC) we have previously used to detect TV signals made it necessary to digitize only one line at a time of the television raster and also to make use of gating to gain the video information contained in the whole frame. This paper is devoted to multiframe digitizing. The recorder of video signals comprises a broadband 8-bit A/D converter, a buffer memory having 128K words and a control circuit which forms a necessary sequence of advance pulses for the A/D converter and the memory relative to the input frame and line sync pulses (FSP and LSP). The device provides recording of video signals corresponding to one or a few frames following one after another, or to their fragments. The control circuit is responsible for the separation of the required fragment of the TV image. When loading the limit registers, the following input parameters of the control circuit are set: the skipping of a definite number of lines after the next FSP, the number of the lines of recording inside a fragment, the frequency of the information lines inside a fragment, the delay in the start of the ADC conversion relative to the arrival of the LSP, the length of the information section of a line, and the frequency of taking the readouts in a line. In addition, among the instructions given are the number of frames of recording and the frequency of their sequence. Thus, the A/D converter operates only inside a given fragment of the TV image. The information is introduced into the memory in sequence, fragment by fragment, without skipping and is then extracted as samples according to the addresses needed for representation in the required form, and processing. The video signal recorder governs the shortest time of the ADC conversion per point of 250 ns. As before, among the apparatus used were an image vidicon with luminophor conversion of x-radiation to light, and a single-crystal x-ray diffraction scheme necessary to form dynamic test objects from x-ray lines dispersed in space (the projections of the linear focus of an x-ray tube).</jats:p>
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spelling	Karpenko, V. A. Khil’chenko, A. D. Lysenko, A. P. Panchenko, V. E. 0034-6748 1089-7623 AIP Publishing Instrumentation http://dx.doi.org/10.1063/1.1140760 <jats:p>The work in progress deals with the experimental search for a technique of digitizing x-ray TV images. The small volume of the buffer memory of the analog-to-digital (A/D) converter (ADC) we have previously used to detect TV signals made it necessary to digitize only one line at a time of the television raster and also to make use of gating to gain the video information contained in the whole frame. This paper is devoted to multiframe digitizing. The recorder of video signals comprises a broadband 8-bit A/D converter, a buffer memory having 128K words and a control circuit which forms a necessary sequence of advance pulses for the A/D converter and the memory relative to the input frame and line sync pulses (FSP and LSP). The device provides recording of video signals corresponding to one or a few frames following one after another, or to their fragments. The control circuit is responsible for the separation of the required fragment of the TV image. When loading the limit registers, the following input parameters of the control circuit are set: the skipping of a definite number of lines after the next FSP, the number of the lines of recording inside a fragment, the frequency of the information lines inside a fragment, the delay in the start of the ADC conversion relative to the arrival of the LSP, the length of the information section of a line, and the frequency of taking the readouts in a line. In addition, among the instructions given are the number of frames of recording and the frequency of their sequence. Thus, the A/D converter operates only inside a given fragment of the TV image. The information is introduced into the memory in sequence, fragment by fragment, without skipping and is then extracted as samples according to the addresses needed for representation in the required form, and processing. The video signal recorder governs the shortest time of the ADC conversion per point of 250 ns. As before, among the apparatus used were an image vidicon with luminophor conversion of x-radiation to light, and a single-crystal x-ray diffraction scheme necessary to form dynamic test objects from x-ray lines dispersed in space (the projections of the linear focus of an x-ray tube).</jats:p> Multiframe digitization of x-ray (TV) images (abstract) Review of Scientific Instruments
spellingShingle	Karpenko, V. A., Khil’chenko, A. D., Lysenko, A. P., Panchenko, V. E., Review of Scientific Instruments, Multiframe digitization of x-ray (TV) images (abstract), Instrumentation
title	Multiframe digitization of x-ray (TV) images (abstract)
title_full	Multiframe digitization of x-ray (TV) images (abstract)
title_fullStr	Multiframe digitization of x-ray (TV) images (abstract)
title_full_unstemmed	Multiframe digitization of x-ray (TV) images (abstract)
title_short	Multiframe digitization of x-ray (TV) images (abstract)
title_sort	multiframe digitization of x-ray (tv) images (abstract)
title_unstemmed	Multiframe digitization of x-ray (TV) images (abstract)
topic	Instrumentation
url	http://dx.doi.org/10.1063/1.1140760