Conveners
Session 7: Electronics
- Nanni Darbo (Universita e INFN Genova (IT))
The Phase-II upgrades of ATLAS and CMS will require a new tracker with readout electronics operating in extremely harsh radiation environment and high data rate readout.
The RD53 collaboration is a joint effort between the ATLAS and CMS experiments facing the challenges of developing hybrid pixel readout chips for the upgrades of the pixel detectors of both experiments.
A large size...
A prototype chip integrating a matrix of 16 × 16 readout channels has been designed and tested in the framework of the RD53 developments for pixel detectors at the High-Luminosity LHC. The matrix is divided in two regions featuring different flavours of the front-end stage, or Linear front-end, that have been tested and compared. The front-end channels include a low-noise charge sensitive...
We present a prototype ASIC solution for vertex detectors of the next generation of colliders, where high resolution in both space and time measurements will be mandatory requirements in order to cope with the huge number of tracks per event to be detected and processed. The ASIC, named Timespot1, designed in CMOS 28-nm technology and featuring a 32x32 pixel matrix with a 55 µm pitch, is...
The adoption of monolithic active pixel particle detectors in space missions is obstructed by a number of technical challenges involving power dissipation, mechanics and material budget.
This work presents a sparse readout architecture for the 3-layers particle tracker, based of the ALPIDE MAPS chip, under development for the HEPD-02 instrument.
With a total of 150 APIDE chips and the...
