DocumentCode
3588543
Title
Prototype of fast data acquisition systems for ITER divertor Thomson scattering diagnostic
Author
Ivanenko, S. ; Khilchenko, A. ; Puryga, E. ; Zubarev, P. ; Kvashnin, A. ; Ovchar, V. ; Ivanova, A. ; Kotelnikov, A.
Author_Institution
Budker Inst. of Nucl. Phys., Novosibirsk, Russia
fYear
2014
Firstpage
1
Lastpage
1
Abstract
Thomson scattering diagnostic is the most reliable and widely used method to measure electron temperature and density profiles of magnetically confined plasma. The prototype of data acquisition system for ITER divertor zone Thomson scattering diagnostic has been recently developed at the Budker Institute of Nuclear Physics (Novosibirsk, Russia). The small power (~10-8W) and short duration (~3-5 ns) are the main technical problems of the diagnostic. For detection and recording such low level signals the prototype of uniquely designed complex data acquisition system was developed. This system consists of 48 photodetector modules with 0-200MHz bandwidth, 48 simultaneously sampling ADC modules and synchronization subsystem. The photodetector modules are based on avalanche photodiodes and extremely low noise transimpedance preamplifiers. ADC modules include fast analog to digital convertors and digital units based on the Field-Programmable Gate Array for data processing and storage. The synchronization subsystem is used to form triggering pulses and to organize the simultaneously mode of ADC modules operation. Features of the system allow detection and recording short duration (3-5 ns) scattered pulses with 2GHz sampling rate and 10-bit total resolution in oscilloscope mode. At present, the system is tested on GLOBUS tokamak (St. Petersburg, Russia).
Keywords
Tokamak devices; analogue-digital conversion; avalanche photodiodes; data acquisition; field programmable gate arrays; plasma density; plasma diagnostics; plasma temperature; plasma toroidal confinement; preamplifiers; synchronisation; ADC module operation; GLOBUS tokamak; ITER divertor zone Thomson scattering diagnostic; Thomson Institute of Nuclear Physics; analog to digital convertors; avalanche photodiodes; data acquisition systems; data processing; data storage; electron density profile; electron temperature profile; field-programmable gate array; frequency 0 MHz to 200 MHz; low-noise transimpedance preamplifiers; magnetically confined plasma; oscilloscope mode; photodetector modules; sampling ADC modules; sampling rate; synchronization subsystem; Data acquisition; Nuclear physics; Photodetectors; Prototypes; Scattering; Synchronization; Temperature measurement;
fLanguage
English
Publisher
ieee
Conference_Titel
Real Time Conference (RT), 2014 19th IEEE-NPSS
Print_ISBN
978-1-4799-3658-8
Type
conf
DOI
10.1109/RTC.2014.7097500
Filename
7097500
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