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Wojeński, Andrzej
in Cooperation with on an Cooperation-Score of 37%
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Publications (6/6 displayed)
- 2019Multichannel Data Acquisition System for GEM Detectors citations
- 2018Advanced real-time data quality monitoring model for tokamak plasma diagnosticscitations
- 2017FPGA-based firmware model for extended measurement systems with data quality monitoring citations
- 2016 Modeling of serial data acquisition structure for GEM detector system in Matlabcitations
- 2016The development of algorithms for the deployment of new version of GEM-detector-based acquisition systemcitations
- 2015FPGA based charge acquisition algorithm for soft X-ray diagnostics systemcitations
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article
Multichannel Data Acquisition System for GEM Detectors
Abstract
This paper presents the data acquisition system for GEM-detector (Sauli in Nucl Instrum Methods Phys Res Sect A Accel Spectrom Detect Assoc Equip 386(2–3): 531–534, 1997.https://doi.org/10.1016/S0168-9002(96)01172-2) based cameras and spectrometers (Chernyshova et al. in Fusion Eng Des, 2017.https://doi.org/10.1016/j.fusengdes.2017.03.107). The system is modular (Czarski et al. in Rev Sci Instrum 87(11): 11E336, 2016.https://doi.org/10.1063/1.4961559) and supports 1D and 2D GEM arrays with software-defined readout modes. Channel count can vary from 8 up to hundreds. The readout electronics consists of two units—radiation tolerant Analog Front End and rack-mount data processing unit. Data processing is split into two parts—real-time hardware, based on FPGA and software, based on embedded multicore CPUs and hardware accelerators. The FPGA subsystem together with PCIe interface and multi-core Xeon processors forms low latency, high-performance processing chain suitable for applications requiring feedback. The detectors in tokamaks operate in the high magnetic field, so the system was equipped with multipoint magnetic field measurement synchronized with detector readout. The system also includes custom HV supply, developed for triple GEM detectors operating in the high-rate mode. Dedicated protection and diagnostic subsystems were developed as well to ensure safe and reliable operation of the detector in harsh conditions. To support the operation of the detector in the high-temperature surrounding, the liquid cooling subsystem was developed (Wojenski et al. in J Instrum 11(11): C11035, 2016).