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Linear capacity storage devices; Memoires lineaires a condensateurs; Linejnye kondensatornye nakopitel'nye ustrojstva; Dispositivos de almacenamiento de condensador, con caracteristicas lineales

Conference:

Abstract

The linearity of information storage in capacitor storage circuits is discussed. The paper describes two storage circuits whose operation is linear over a wide range of output-signal amplitudes. In one of the circuits the error signal is measured by a differential amplifier and, thanks to the high amplification factor of the amplifier, good linearity is obtained. The second circuit was designed for work in the nanosecond pulse-width range. Input pulses of standard width cut off a pentode, in the anode of which there is a memory capacitor. Since the capacitor is charged from the anode supply through a current generator, the charging current remains almost constant during measurement of the capacitor voltage. The pentode has a large internal resistance so that after the end of the input pulse the magnitude of the current through the pentode is almost equal to its initial value, and the charge stored by the capacitor is remembered. The width of the information memory is limited by the output resistance of the current generator and the internal resistance (R{sub i}) of the pentode. To increase the memory width, a diode may be inserted before the capacitor. (author) [French] L'auteur examine les questions que pose la linearite  More>>
Authors:
Brovchenko, V G [1] 
  1. Ordena Lenina Institut Atomnoj Ehnergii Imeni I.V. Kurchatova AN, SSSR (Russian Federation)
Publication Date:
Apr 15, 1962
Product Type:
Conference
Resource Relation:
Conference: Conference on Nuclear Electronics, Belgrade, Yugoslavia (Serbia), 15-20 May 1961; Other Information: 3 figs; Related Information: In: Nuclear Electronics III. Proceedings of the Conference on Nuclear Electronics. V. III| 544 p.
Subject:
46 INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY; AMPLIFIERS; CAPACITORS; INFORMATION; PULSES; SIGNALS; STORAGE
OSTI ID:
22082825
Research Organizations:
International Atomic Energy Agency, Vienna (Austria)
Country of Origin:
IAEA
Language:
Russian
Other Identifying Numbers:
Other: ISSN 0074-1884; TRN: XA12N2043041824
Submitting Site:
INIS
Size:
page(s) 87-92
Announcement Date:
Apr 12, 2013

Conference:

Citation Formats

Brovchenko, V G. Linear capacity storage devices; Memoires lineaires a condensateurs; Linejnye kondensatornye nakopitel'nye ustrojstva; Dispositivos de almacenamiento de condensador, con caracteristicas lineales. IAEA: N. p., 1962. Web.
Brovchenko, V G. Linear capacity storage devices; Memoires lineaires a condensateurs; Linejnye kondensatornye nakopitel'nye ustrojstva; Dispositivos de almacenamiento de condensador, con caracteristicas lineales. IAEA.
Brovchenko, V G. 1962. "Linear capacity storage devices; Memoires lineaires a condensateurs; Linejnye kondensatornye nakopitel'nye ustrojstva; Dispositivos de almacenamiento de condensador, con caracteristicas lineales." IAEA.
@misc{etde_22082825,
title = {Linear capacity storage devices; Memoires lineaires a condensateurs; Linejnye kondensatornye nakopitel'nye ustrojstva; Dispositivos de almacenamiento de condensador, con caracteristicas lineales}
author = {Brovchenko, V G}
abstractNote = {The linearity of information storage in capacitor storage circuits is discussed. The paper describes two storage circuits whose operation is linear over a wide range of output-signal amplitudes. In one of the circuits the error signal is measured by a differential amplifier and, thanks to the high amplification factor of the amplifier, good linearity is obtained. The second circuit was designed for work in the nanosecond pulse-width range. Input pulses of standard width cut off a pentode, in the anode of which there is a memory capacitor. Since the capacitor is charged from the anode supply through a current generator, the charging current remains almost constant during measurement of the capacitor voltage. The pentode has a large internal resistance so that after the end of the input pulse the magnitude of the current through the pentode is almost equal to its initial value, and the charge stored by the capacitor is remembered. The width of the information memory is limited by the output resistance of the current generator and the internal resistance (R{sub i}) of the pentode. To increase the memory width, a diode may be inserted before the capacitor. (author) [French] L'auteur examine les questions que pose la linearite du stockage des informations par des memoires a condensateurs. Il decrit deux circuits de memoires dont le fonctionntement est lineaire pour une vaste gamme d'amplitude des signaux de sortie. Dans l'un des circuits, le signal d'erreur est mesure par un amplificateur differentiel. Le coefficient d'amplification eleve permet d'obtenir une grande linearite dans le fonctionnement du dispositif. Le deuxieme circuit est construit pour des impulsions dont la duree est de l'ordre d'une nanoseconde. Les impulsions incidentes de duree normalisee bloquent la penthode, a l'anode de laquelle est dispose le condensateur de la memoire. Comme le condensateur est charge par' une alimentation anodique au moyen d'une generatrice electrique, le courant de chargement reste pratiquement constant lorsque la tension du condensateur varie. La penthode a une forte resistance interne; il s'ensuit qu'apres le passage de l'impulsion incidente le courant qui traverse la penthode est presque egal a la valeur initiale, et la charge accumulee par le condensateur se trouve maintenue. La duree de la memoire est limitee par les valeurs de la resistance a la sortie de la generatrice et de la penthode haute frequence. Pour augmenter la duree de la memoire, on peut placer une diode devant le condensateur. (author) [Spanish] En esta memoria se examina el problema de la linealidad del almacenamiento de datos en circuitos de almacenamiento con condensador. Se describen dos circuitos de almacenamiento de respuesta lineal dentro de una amplia gama de amplitudes de las senales de salida. En uno de los circuitos la senal de error se mide con un amplificador diferencial. Gracias al elevado factor de amplificacion, el aparato funciona con caracteristicas sensiblemente lineales. El otro circuito esta disenado para trabajar con impulsos de una duracion del orden del nanosegundo. Los impulsos de entrada de anchura normal cierran el circuito de un pentodo en cuyo anodo se halla el condensador que actua como ''memoria''. Como el condensador se carga desde el anodo por medio de un generador, la intensidad de corriente de carga permanece casi constante aunque la tension del condensador varie durante la medicion. El pentodo tiene una gran resistencia interna, de modo que al terminar el impulso de entrada, la corriente que atraviesa el pentodo tiene casi la misma intensidad que al principio, quedando asi almacenada la carga acumulada por el condensador. La duracion de la ''memoria'' esta limitada por los valores de la resistencia de salida del generador de corriente y por la resistencia interna R{sub i} del pentodo. Para prolongar la duracion de la ''memoria'' se puede colocar un diodo delante del condensador. (author) [Russian] Rassmatrivayutsya voprosy linejnosti nakopleniya informatsii kondensatornymi nakopitel'nymi ustrojstvami. Opisyvayutsya dve skhemy nakopitelej, rabotayushchikh linejno v bol'shom diapazone amplitud vykhodnykh signalov. V odnoj iz skhem signal oshibki izmeryaetsya differentsial'nym usilitelem. Blagodarya bol'shomu koehffitsientu usileniya usilitelya dostigaetsya vysokaya linejnost' raboty ehtogo ustrojstva. Vtoraya skhema skonstruirovana dlya raboty s impul'sami nanosekundnogo diapazona dlitel'nostej. Vkhodnye impul'sy standartnoj dlitel'nosti zapirayut pentod, v anode kotorogo raspolozhen kondensator pamyati. Tak kak zaryadka kondensatora proizvoditsya ot anodnogo pitaniya cherez generator toka, tok zaryadki ostaetsya pochti postoyannym pri izmenenii potentsiala kondensatora. Pentod imeet bol'shoe vnutrennee soprotivlenie, poehtomu posle okonchaniya vkhodnogo impul'sa tok cherez pentod pochti raven nachal'noj velichine, a zaryad, nakoplennyj kondensatorom, zapominaetsya. Dlitel'nost' pamyati informatsii ogranichena velichinami vykhodnogo soprotivleniya generatora toka i R{sub i} pentoda. Dlya uvelicheniya dlitel'nosti pamyati pered kondensatorom mozhet byt' vklyuchen diod. (author)}
place = {IAEA}
year = {1962}
month = {Apr}
}