Add to ORKGInternational audienceA very-front-end electronics has been developed to fulfil requirements for the next generation of electromagnetic calorimeters. The compactness of this kind of detector and its large number of channels (up to several millions) impose a drastic limitation of the power consumption and a high level of integration. The electronic channel proposed is first of all composed of a low-noise Charge Sensitive Amplifier (CSA) able to amplify the charge delivered by a silicon diode up to 10 pC. Next, a two-gain shaping, based on a Gated Integration (G.I.), is implemented to cover the 15 bits dynamic range required: a high gain shaper processes signals from 4 fC (charge corresponding to the MIP) up to 1 pC, and a low gain filter handles...
This article reports on first experience with the technological prototype of a highly- granular sili...
KLauS is an application specific integrated circuit (ASIC) for the readout of silicon photomultiplie...
International audienceGaseous detectors (Glass Resistive Plate Chambers, Micromegas or Gas Electron ...
International audienceA very-front-end electronics has been developed to fulfil requirements for the ...
International audienceA very-front-end electronics dedicated to high granularity calorimeters has be...
Abstract—A very-front-end electronics dedicated to high gran-ularity calorimeters has been designed ...
A dedicated very-front-end (VFE) readout channel for high -granularity calorimeters has been designe...
International audienceA readout ASIC called CaloRIC, has been developed to fulfil the signal process...
This paper describes an R&D electronic program for the next generation of linear collider electromag...
International audienceA very-front-end electronics dedicated to high granularity calorimeters has be...
eConf: C050318 : 0902A 18-channel low-noise front-end chip has been designed and produced to read ou...
Calorimetry in large detectors at LHC poses some requirements on readout electronics which are quite...
We present a digital solution for the front-end electronics of high resolution calorimeters at futur...
This article reports on first experience with the technological prototype of a highly- granular sili...
KLauS is an application specific integrated circuit (ASIC) for the readout of silicon photomultiplie...
International audienceGaseous detectors (Glass Resistive Plate Chambers, Micromegas or Gas Electron ...
International audienceA very-front-end electronics has been developed to fulfil requirements for the ...
International audienceA very-front-end electronics dedicated to high granularity calorimeters has be...
Abstract—A very-front-end electronics dedicated to high gran-ularity calorimeters has been designed ...
A dedicated very-front-end (VFE) readout channel for high -granularity calorimeters has been designe...
International audienceA readout ASIC called CaloRIC, has been developed to fulfil the signal process...
This paper describes an R&D electronic program for the next generation of linear collider electromag...
International audienceA very-front-end electronics dedicated to high granularity calorimeters has be...
eConf: C050318 : 0902A 18-channel low-noise front-end chip has been designed and produced to read ou...
Calorimetry in large detectors at LHC poses some requirements on readout electronics which are quite...
We present a digital solution for the front-end electronics of high resolution calorimeters at futur...
This article reports on first experience with the technological prototype of a highly- granular sili...
KLauS is an application specific integrated circuit (ASIC) for the readout of silicon photomultiplie...
International audienceGaseous detectors (Glass Resistive Plate Chambers, Micromegas or Gas Electron ...