Design and Development of an Integrated Readout System for the Triple-GEM Detector

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One of the most active research branches in GEM detectors is frontend performance improvement, employing dedicated CMOS integrated solutions, suitable to sustain overall count rate while reducing power consumption, and at the same time increasing system portability. In fact, the development of an ASIC can afford several advantages with respect to other common solutions, i.e. PCBs. For instance, the inclusion of a digital-based data elaboration can greatly increase performance reducing the overall readout system complexity, limiting the necessity of off-chip devices like FPGAs or standard microcontrollers. Then, silicon implementation allows dedicated circuital/system-level choices, optimizing the system to cope with detector performance. Improvements in portability are also crucial, since the detector pixelated output includes hundreds of pads, manufactured in different size factors. These represent a primary issue in readout design, in terms of noise and efficiency. In this scenario, two prototypes with different targets have been developed. The aim of GEMMA (GEM Mixed-signal Asic) is to measure the arrival time and the amount of charge from the Triple-GEM detector. It composes of 8 detecting channels including a Charge Sensitive Preamplifier (CSP) and a Charge-Time Converter (CTC). It is able to manage up to 15pF of pixel parasitic capacitance. The embedded calibration system tunes all channels’ CSP feedback capacitances, to match the target sensitivity of 0.5mV/fC within a 5% tolerance. The CTC converts the CSP output voltage signal into digital domain. In detail, the CTC gets the CSP output and generates two logic output signals. The first, named Charge-Time Signal (CTS), includes information into its time duration, directly proportional to the input charge. The second, named Event Detection Signal (EDS) gives information about the arrival time of the incident particle. In channel 6, for prototyping concern, the CTS is also converted into a 7-bit digital word by
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Pezzotta
Pezzotta, A