39. B.Gudkov, A.Filipchenko, V.Kozak, E.Kuper, G.Kurkin, A.Medvedko, G.Serdobintsev,
Tararyshkin, V.Ushakov, (Budker Institute of Nuclear Physics, Novosibirsk, Russia);
Korchuganov, Yu.Krylov, A.Valentinov, Yu.Yupinov, KCSR RSC Kurchatov Institute,
Spinko, (LSRIPP, Zelenograd, Russia).
REVISION OF ZELENOGRAD FACILITY CONTROL SYSTEM
Control system of Zelenograd Synchrotron Radiation facility, designed at the end 80-th last century, is in commission now. Old system was CAMAC based mainly. More ad- vanced variant will consist in replacement of CAMAC modules with the embedded con- trollers. The report describes new hardware and software solutions.
Dr. SergeyVasilievichTararyshkin: firstname.lastname@example.org
40. E.A.Kuper, A.D.Oreshkov, A.V.Repkov, T.V.Salikova, D.A.Sklokin, S.V.Tararyshkin,
A.Vinokurov (Budker Institute of Nuclear Physics, Novosibirsk, Russia) Radiation Dosimetry Diagnostic System of FEL In this article is described the radiation dosimetry diagnostic system of the powerful tera- hertz Free Electron Laser constructed in the Siberian Center for Photochemical Research. Radiation dosimetry system contains the new technological decisions: hardware and soft- ware intended for the radiation’s monitoring and tracing of losses of a beam in the vac- uum chamber.
Dr. Sergey Vasilievich Tararyshkin: email@example.com
P.41. E.V.Bykov, S.V.Tararyshkin (Budker Institute of Nuclear Physics, Novosibirsk, Russia) Measuring system with fiber-optical interface.
The system represents as eight ADCs. Each ADC module has 2 independent channels with range of measurement 3V. The modules connected with computer through optical fiber which take possibility to use the system for measuring parameters under high volt- age. A realization of the system and its basic parameters introduced in the report.
Evgenij Vitalievich Bykov: EVBykov@inp.nsk.su