ICALEPCS2013 - List of Authors (Efimov, Y.V.)

Paper

Title

Page

New Automated Control System at Kurchatov Synchrotron Radiation Source Based on SCADA System Citect

97

Y.A. Fomin, V. Dombrovsky, Y.V. Efimov, E.V. Kaportsev, V. Korchuganov, Y.V. Krylov, K. Moseev, N.I. Moseiko, A.G. Valentinov
NRC, Moscow, Russia
A. Dorovatovsky, L.A. Moseiko
RRC, Moscow, Russia

The description of new automated control system of Kurchatov synchrotron radiation source which is realized at present time is presented in the paper. The necessity of automated control system modernization is explained by the equipment replacement in which we take state of art hardware decisions for facility control and increase the performances of facility control system. In particular, the number of control channels are increase, the processing and transmitting data speed are considerably increase and the requirements to measurement accuracy are become more strict. The paper presents the detailed description of all control levels (lower, server and upper) of new automated control system and integration of SCADA-system Citect into facility control system which provides the facility control, alarms notify, detailed reports preparation, acquisition and storage of historical data et al.

MOPPC107

RF-Generators Control Tools for Kurchatov Synchrotron Radiation Source

359

Y.V. Krylov
RRC, Moscow, Russia
Y.V. Efimov, Y.A. Fomin, E.V. Kaportsev, D. V. Konyakhin, K. Moseev, N.I. Moseiko, A. Vernov
NRC, Moscow, Russia

Now the technology equipment of the Kurchatov Synchrotron Radiation Source (KSRS) is upgraded. At the same time, new equipment and software solutions for the control system are implemented. The KSRS main ring is the electron synchrotron with two 181 MHz RF-generators, their control system provides measurement of parameters of generation, regulation of tuning elements in wave guides and resonators, output of alarm messages. At the execution level the VME standard equipment is used. Server level is supported by Citect SCADA and the SQL historian server. The operator level of control system is implemented, as a PC local network. It allowed to expand number of measuring channels, to increase speed of processing and data transfers, to have on demand historical data with the big frequency of inquiry, and also to improve the accuracy of measurements. In article the control system structure by KSRS RF-generators, including the description of all levels of control is provided. Examples of implementation of the operator interface are given.

Poster MOPPC107 [1.671 MB]

THPPC049

The Power Supply System for Electron Beam Orbit Correctors and Focusing Lenses of Kurchatov Synchrotron Radiation Source

1180

N.I. Moseiko, Y.V. Efimov, V. Korchuganov, V.V. Kordhikov, S.G. Pesterev, A.G. Valentinov
NRC, Moscow, Russia
I.V. Akimenkov, A.F. Shamarin
Marathon Ltd., Moscow, Russia
A.S. Chepurnov, A.S. Nikolaev
MSU SINP, Moscow, Russia
I.V. Gribov
MSU, Moscow, Russia
Y.V. Krylov, L.A. Moseiko
RRC, Moscow, Russia

The modernization project of the low-current power supply system of Kurchatov Synchrotron Radiation Source has been designed and is under implementation now. It includes transition to the new power suppliers to feed electron beam orbit correctors and focusing lenses. Multi-level control system, based on CAN/CANopen fieldbus, has been developed for specific accelerator applications, which allows startup and continuous run of hundreds of power supplies together with the other subsystems of the accelerator. The power sources data and status are collected into the archive with the Citect SCADA 7.2 Server SCADA Historian Server. The following operational parameters of the system are expected: current control resolution - 0.05% of IMAX; current stability - 5*10^-4 ; 10 hours current variance - 100 ppm of IMAX ; temperature drift - 40ppm/K of IMAX.

THPPC050

Upgrade System of Vacuum Monitoring of Synchrotron Radiation Sources of National Research Centre Kurchatov Institute

1183

N.I. Moseiko, V. Dombrovsky, Y.V. Efimov, V. Korchuganov, Y.V. Krylov, D.G. Odintsov
NRC, Moscow, Russia
L.A. Moseiko, A.V. Shirokov
RRC, Moscow, Russia
B.I. Semenov
RRC KI, Moscow, Russia

Modernization project of the vacuum system of the synchrotron radiation source at the National Research Centre Kurchatov Institute (NRC KI) has been designed and implemented. It includes transition to the new high-voltage power sources for NMD and PVIG–0.25/630 pumps. The system is controlled via CAN-bus, and the vacuum is controlled by measuring pump currents in a range of 0.0001–10 mA. Status visualization, data collection and data storage is implemented on Sitect SCADA 7.2 Server and SCADA Historian Server. The system ensures a vacuum of 10–7 Pa. The efficiency and reliability of the vacuum system is increased by this work, making it possible to improve the main parameters of the SR source.

Paper	Title	Page
MOPPC020	New Automated Control System at Kurchatov Synchrotron Radiation Source Based on SCADA System Citect	97
	Y.A. Fomin, V. Dombrovsky, Y.V. Efimov, E.V. Kaportsev, V. Korchuganov, Y.V. Krylov, K. Moseev, N.I. Moseiko, A.G. Valentinov NRC, Moscow, Russia A. Dorovatovsky, L.A. Moseiko RRC, Moscow, Russia
	The description of new automated control system of Kurchatov synchrotron radiation source which is realized at present time is presented in the paper. The necessity of automated control system modernization is explained by the equipment replacement in which we take state of art hardware decisions for facility control and increase the performances of facility control system. In particular, the number of control channels are increase, the processing and transmitting data speed are considerably increase and the requirements to measurement accuracy are become more strict. The paper presents the detailed description of all control levels (lower, server and upper) of new automated control system and integration of SCADA-system Citect into facility control system which provides the facility control, alarms notify, detailed reports preparation, acquisition and storage of historical data et al.

MOPPC107	RF-Generators Control Tools for Kurchatov Synchrotron Radiation Source	359
	Y.V. Krylov RRC, Moscow, Russia Y.V. Efimov, Y.A. Fomin, E.V. Kaportsev, D. V. Konyakhin, K. Moseev, N.I. Moseiko, A. Vernov NRC, Moscow, Russia
	Now the technology equipment of the Kurchatov Synchrotron Radiation Source (KSRS) is upgraded. At the same time, new equipment and software solutions for the control system are implemented. The KSRS main ring is the electron synchrotron with two 181 MHz RF-generators, their control system provides measurement of parameters of generation, regulation of tuning elements in wave guides and resonators, output of alarm messages. At the execution level the VME standard equipment is used. Server level is supported by Citect SCADA and the SQL historian server. The operator level of control system is implemented, as a PC local network. It allowed to expand number of measuring channels, to increase speed of processing and data transfers, to have on demand historical data with the big frequency of inquiry, and also to improve the accuracy of measurements. In article the control system structure by KSRS RF-generators, including the description of all levels of control is provided. Examples of implementation of the operator interface are given.
	Poster MOPPC107 [1.671 MB]

THPPC049	The Power Supply System for Electron Beam Orbit Correctors and Focusing Lenses of Kurchatov Synchrotron Radiation Source	1180
	N.I. Moseiko, Y.V. Efimov, V. Korchuganov, V.V. Kordhikov, S.G. Pesterev, A.G. Valentinov NRC, Moscow, Russia I.V. Akimenkov, A.F. Shamarin Marathon Ltd., Moscow, Russia A.S. Chepurnov, A.S. Nikolaev MSU SINP, Moscow, Russia I.V. Gribov MSU, Moscow, Russia Y.V. Krylov, L.A. Moseiko RRC, Moscow, Russia
	The modernization project of the low-current power supply system of Kurchatov Synchrotron Radiation Source has been designed and is under implementation now. It includes transition to the new power suppliers to feed electron beam orbit correctors and focusing lenses. Multi-level control system, based on CAN/CANopen fieldbus, has been developed for specific accelerator applications, which allows startup and continuous run of hundreds of power supplies together with the other subsystems of the accelerator. The power sources data and status are collected into the archive with the Citect SCADA 7.2 Server SCADA Historian Server. The following operational parameters of the system are expected: current control resolution - 0.05% of IMAX; current stability - 5*10^-4 ; 10 hours current variance - 100 ppm of IMAX ; temperature drift - 40ppm/K of IMAX.

THPPC050	Upgrade System of Vacuum Monitoring of Synchrotron Radiation Sources of National Research Centre Kurchatov Institute	1183
	N.I. Moseiko, V. Dombrovsky, Y.V. Efimov, V. Korchuganov, Y.V. Krylov, D.G. Odintsov NRC, Moscow, Russia L.A. Moseiko, A.V. Shirokov RRC, Moscow, Russia B.I. Semenov RRC KI, Moscow, Russia
	Modernization project of the vacuum system of the synchrotron radiation source at the National Research Centre Kurchatov Institute (NRC KI) has been designed and implemented. It includes transition to the new high-voltage power sources for NMD and PVIG–0.25/630 pumps. The system is controlled via CAN-bus, and the vacuum is controlled by measuring pump currents in a range of 0.0001–10 mA. Status visualization, data collection and data storage is implemented on Sitect SCADA 7.2 Server and SCADA Historian Server. The system ensures a vacuum of 10–7 Pa. The efficiency and reliability of the vacuum system is increased by this work, making it possible to improve the main parameters of the SR source.