Add to ORKGeConf: C050318 : 0902A 18-channel low-noise front-end chip has been designed and produced to read out the 1cm² silicon PIN diodes of the CALICE WSi physics prototype calorimeter. Each channel includes a multi-gain low noise charge preamplifier followed by a bi-gain shaper and a track and hold device. A single output allows reading out every channel at 5 MHz through a multiplexer. Voltage swing is 2.5V with a 5‰ non-linearity. The measured dynamic range on a fixed gain is larger than 13 bits. The gain of the preamplifier can be tuned from 0.3V/pC to 5V/pC with 4 bits. The shaping is done by two fixed-gain shapers (gain 1 and gain 10). Output measured noise is 3000 e- with a detector capacitance of 100pF and a MIP around 42000 e-. Crosstalk i...
The CALICE collaboration is studying the design of high performance electromagnetic and hadronic cal...
The Calice collaboration is assembling a prototype calorimeter composed of an electromagnetic calori...
33 pages, 34 figures, Accept. in JINSTThe CALICE collaboration is studying the design of high perfor...
This paper describes an R&D electronic program for the next generation of linear collider electromag...
An ASIC (FLC_PHY3) has been developed to readout the test-beam prototype of the future linear collid...
International audienceA very-front-end electronics has been developed to fulfil requirements for the ...
On behalf of the CALICE CollaborationInternational audienceThe CALICE collaboration is preparing lar...
Abstract. The CALICE collaboration is currently developing engineering prototypes of electromagnetic...
eConf: C050318 : LCWS-2005-0916An integrated front-end chip has been developed to readout the Silico...
An ASIC (FLC_PHY3) has been developed to read out the test-beam prototype of the future internationa...
CALICE Collaboration EUDET CollaborationThis abstract describes the new front end ASIC designed for ...
The next generation of collider detectors will make full use of Particle Flow Algorithms, requiring ...
Integration and low-power consumption of the read-out ASIC for the International Linear Collider (IL...
The CALICE collaboration is studying the design of high performance electromagnetic and hadronic cal...
The Calice collaboration is assembling a prototype calorimeter composed of an electromagnetic calori...
33 pages, 34 figures, Accept. in JINSTThe CALICE collaboration is studying the design of high perfor...
This paper describes an R&D electronic program for the next generation of linear collider electromag...
An ASIC (FLC_PHY3) has been developed to readout the test-beam prototype of the future linear collid...
International audienceA very-front-end electronics has been developed to fulfil requirements for the ...
On behalf of the CALICE CollaborationInternational audienceThe CALICE collaboration is preparing lar...
Abstract. The CALICE collaboration is currently developing engineering prototypes of electromagnetic...
eConf: C050318 : LCWS-2005-0916An integrated front-end chip has been developed to readout the Silico...
An ASIC (FLC_PHY3) has been developed to read out the test-beam prototype of the future internationa...
CALICE Collaboration EUDET CollaborationThis abstract describes the new front end ASIC designed for ...
The next generation of collider detectors will make full use of Particle Flow Algorithms, requiring ...
Integration and low-power consumption of the read-out ASIC for the International Linear Collider (IL...
The CALICE collaboration is studying the design of high performance electromagnetic and hadronic cal...
The Calice collaboration is assembling a prototype calorimeter composed of an electromagnetic calori...
33 pages, 34 figures, Accept. in JINSTThe CALICE collaboration is studying the design of high perfor...