Title: | A synchronization and data acquisition system for silicon detectors |
Authors: | Holík, Michael Ahmadov, G. Berikov, D. Ahmadov, F. Kopatch, Yu. Nuruyev, S. Akbarov, R. Abbaszada, N. Telezhnikov, S. Broulím, Jan Široký, J. Mora Sierra, Yesid |
Citation: | HOLÍK, M., AHMADOV, G., BERIKOV, D., AHMADOV, F., KOPATCH, Y., NURUYEV, S., AKBAROV, R., ABBASZADA, N., TELEZHNIKOV, S., BROULÍM, J., ŠIROKÝ, J., MORA SIERRA, Y. A synchronization and data acquisition system for silicon detectors. Journal of Instrumentation, 2018, roč. 13, č. November, s. 0-8. ISSN 1748-0221. |
Issue Date: | 2018 |
Publisher: | IOP Publishing |
Document type: | článek article |
URI: | 2-s2.0-85057599291 http://hdl.handle.net/11025/30926 |
ISSN: | 1748-0221 |
Keywords in different language: | instrumentation and methods for heavy-ion reactions and fission studies;ion identification systems;data acquisition concepts;trigger concepts and systems (hardware and software) |
Abstract in different language: | A dedicated synchronization bus has been developed and integrated into the FITPix COMBO device. It can be used as Timepix read-out (involving back-side-pulse acquisition) or as a simple spectrometer device—Spectrig (when an external single pad sensor is connected, e.g. Δ E detector). The synchronization bus permits the implementation of a system of up to 32 distinct devices running in clock locked mode while the absolute value of the timestamp is distributed to all devices in the system. Any combination of Timepix or spectrometer devices (up to 32) can be connected-up to create a final measurement set-up. The synchronization bus has also been designed to control a trigger signal and busy signal to allow an effective filtration of unpaired events when coincidence measurement is performed. The system has been tested with a Δ E− E telescope consisting of a thin detector and Timepix. The thin detector has been used for Δ E and the Timepix detector for E measurements. The Δ E detector has an area of 10×10 mm2 and a thickness of 12 μm with non-uniformity of 8%. The area and thickness of Timepix are 14×14 mm2 and 300 μm, respectively. The detection system can provide simultaneous information about position, energy, time and type of registered particles with high synchronization accuracy. Test measurements have been carried out with an alpha particle source (Ra-226) in a vacuum and the results of these measurements are presented in this paper. |
Rights: | Plný text je přístupný v rámci univerzity přihlášeným uživatelům. © IOP Publishing |
Appears in Collections: | Články / Articles (KAE) Články / Articles (RICE) OBD |
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