Conveners
R3-Front-end electronics and fast data transmission(1)
- Fukun Tang (The University of Chicago)
- Johan Borg (Imperial College London)
Xiaoxue Han
(H)
5/23/17, 4:30 PM
Front-end electronics and fast data transmission
oral
The LHCb detector will be upgraded during the Long Shutdown 2 (LS2) of the LHC in order to cope with higher instantaneous luminosities and to read out the data at 40MHz using a trigger-less read-out system. The current LHCb main tracking system will be replaced by a single homogenous detector based on scintillating fibres. The detector will be built from 2.5 m long plastic fibres with a...
Selma Conforti
(OMEGA/IN2P3/CNRS)
5/23/17, 4:48 PM
Front-end electronics and fast data transmission
oral
CATIROC (Charge And Time Integrated Read Out Chip) is a complete read-out chip designed to read arrays of 16 photomultipliers (PMTs). It finds a valuable application in the content of the JUNO experiment, the largest Liquid Scintillator Antineutrino Detector ever built, currently under construction in the south of China. A double calorimetry system will be used for the first time ever...
Dr
Qiang Wang
(Nevis Laboratories, Columbia University)
5/23/17, 5:06 PM
Front-end electronics and fast data transmission
oral
The new trigger readout electronics system for ATLAS Liquid Argon (LAr) Calorimeter aims to improve granularity of the calorimeter information for the L1 trigger, essential for physics research goals after the phase-1 upgrade. The major R&D activities for front-end readout electronics upgrade include designing a new radiation-hard ADC and a data multiplexing and serialization ASIC to send the...
Dr
li yu
(University of Science and Technology of China)
5/23/17, 5:24 PM
Front-end electronics and fast data transmission
oral
Li Yu, Ping Cao, WeiJia Sun, ManYu Zheng, Ying Zhang and Qi An
K.K. Gan
(T)
5/23/17, 5:42 PM
Front-end electronics and fast data transmission
oral
The LHC has recently been upgraded to operate at higher energy and luminosity. In addition, there are plans for further upgrades. These upgrades require the optical links of the experiments to transmit data at much higher speed in a more intense radiation environment. We have designed a new optical transceiver for transmitting data at 10 Gb/s. The device consists of a 4-channel ASIC driving a...
