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Auxiliary controllers for data acquisition from scintillation detector electronic equipment

Journal Article:

Abstract

Structural schemes of auxiliary controllers of three types ensuring compression, filtration and record in buffer storage of data from scintillation detectors electronic equipment are described. The electronics is made according to the CAMAC ideology. The KD-85 controller exercises data readout from analog-to-digital converters (ADC), subtraction of pedestal values, discrimination by the bottom level and record into the buffer storage module. The KD-86 controller summarizes data from all the ADC channels in a crate dicscriminates the summarized data by the upper and bottom levels, and rejects data classified as useless. The KD-90 controller ensures data reading from different modules of the crate according to preset code and records information in the buffer storage module. The considered controllers employ integral microcircuits of the K 155 series. At present the controllers are under experimental operation. Their utilization would permit to adopt new arrangement of data acquisition from experimental facilities in the nearest future and essentially increase the operating efficiency of these facilities.
Authors:
Leonenko, D A; Rybakov, V G; Sen'ko, V A [1] 
  1. Gosudarstvennyj Komitet po Ispol'zovaniyu Atomnoj Ehnergii SSSR, Serpukhov. Inst. Fiziki Vysokikh Ehnergij
Publication Date:
Jan 01, 1983
Product Type:
Journal Article
Reference Number:
AIX-16-014913; EDB-85-055471
Resource Relation:
Journal Name: Prib. Tekh. Eksp.; (USSR); Journal Volume: 5; Other Information: For English translation see the journal Instruments and Experimental Techniques (USA)
Subject:
46 INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY; SCINTILLATION COUNTERS; DATA ACQUISITION SYSTEMS; CAMAC SYSTEM; COMPARATOR CIRCUITS; DATA ACQUISITION; DATA PROCESSING; FLOWSHEETS; MICROELECTRONIC CIRCUITS; PERFORMANCE TESTING; DIAGRAMS; ELECTRONIC CIRCUITS; MEASURING INSTRUMENTS; PROCESSING; RADIATION DETECTORS; TESTING; 440101* - Radiation Instrumentation- General Detectors or Monitors & Radiometric Instruments
OSTI ID:
5979339
Country of Origin:
USSR
Language:
Russian
Other Identifying Numbers:
Journal ID: CODEN: PRTEA
Submitting Site:
HEDB
Size:
Pages: 95-100
Announcement Date:

Journal Article:

Citation Formats

Leonenko, D A, Rybakov, V G, and Sen'ko, V A. Auxiliary controllers for data acquisition from scintillation detector electronic equipment. USSR: N. p., 1983. Web.
Leonenko, D A, Rybakov, V G, & Sen'ko, V A. Auxiliary controllers for data acquisition from scintillation detector electronic equipment. USSR.
Leonenko, D A, Rybakov, V G, and Sen'ko, V A. 1983. "Auxiliary controllers for data acquisition from scintillation detector electronic equipment." USSR.
@misc{etde_5979339,
title = {Auxiliary controllers for data acquisition from scintillation detector electronic equipment}
author = {Leonenko, D A, Rybakov, V G, and Sen'ko, V A}
abstractNote = {Structural schemes of auxiliary controllers of three types ensuring compression, filtration and record in buffer storage of data from scintillation detectors electronic equipment are described. The electronics is made according to the CAMAC ideology. The KD-85 controller exercises data readout from analog-to-digital converters (ADC), subtraction of pedestal values, discrimination by the bottom level and record into the buffer storage module. The KD-86 controller summarizes data from all the ADC channels in a crate dicscriminates the summarized data by the upper and bottom levels, and rejects data classified as useless. The KD-90 controller ensures data reading from different modules of the crate according to preset code and records information in the buffer storage module. The considered controllers employ integral microcircuits of the K 155 series. At present the controllers are under experimental operation. Their utilization would permit to adopt new arrangement of data acquisition from experimental facilities in the nearest future and essentially increase the operating efficiency of these facilities.}
journal = {Prib. Tekh. Eksp.; (USSR)}
volume = {5}
journal type = {AC}
place = {USSR}
year = {1983}
month = {Jan}
}