A versatile 32-channel ASIC has been developed for accurate processing of high-rate pulse signals from highly segmented detectors. In contrast to conventional approaches, this circuit affords a dramatic reduction in data volume through the use of analog techniques (precision peak detectors and time-to-amplitude converters) together with fast arbitration and sequencing logic to concentrate the data before digitization. In operation the circuit functions like a data-driven analog first-in, first-out (FIFO) memory between the preamplifiers and the ADC. Peak amplitudes of pulses arriving at any one of the 32 inputs are sampled, stored, and queued for readout and digitization through a single output port. Hit timing, pulse risetime, and channel ...
Dans un contexte de réduction des tailles de transistors dans les technologies CMOS très avancées en...
An approach and its implementation in 0.18 m CMOS process of the multichannel ASIC for capacitive (u...
Aggressive scaling of CMOS technology into deep sub-micron nodes enables analog front-end circuitrie...
We describe a new ASIC for accurate and efficient processing of high-rate pulse signals from highly ...
We present the design and performance of a prototype ASIC digitizer for integrated wire chamber read...
The PSEC4 custom integrated circuit was designed for the recording of fast waveforms for use in larg...
The new TRacking Array for light Charged particle Ejectiles (TRACE) detector system requires monitor...
Switched capacitor analog memories are well suited to a number of applications where a continuous di...
Switched capacitor analog memories are well suited to a number of applications where a continuous di...
International audienceSAMPIC is a Time and Waveform to Digital Converter (TWDC) multichannel chip. I...
The readout system for the new TRACE detector requires monitorization and sampling of all pulses in ...
One of the most challenging detectors of the NA62 experiment is the silicon tracker, called Gigatrac...
The TDCpix ASIC is the readout chip for the Gigatracker station of the NA62 experiment. Each station...
SamPic0 is a Waveform and Time to Digital Converter (WTDC) multichannel chip providing outstanding t...
A mixed-signal ASIC for timing and energy measurements with radiation detectors is described. The ch...
Dans un contexte de réduction des tailles de transistors dans les technologies CMOS très avancées en...
An approach and its implementation in 0.18 m CMOS process of the multichannel ASIC for capacitive (u...
Aggressive scaling of CMOS technology into deep sub-micron nodes enables analog front-end circuitrie...
We describe a new ASIC for accurate and efficient processing of high-rate pulse signals from highly ...
We present the design and performance of a prototype ASIC digitizer for integrated wire chamber read...
The PSEC4 custom integrated circuit was designed for the recording of fast waveforms for use in larg...
The new TRacking Array for light Charged particle Ejectiles (TRACE) detector system requires monitor...
Switched capacitor analog memories are well suited to a number of applications where a continuous di...
Switched capacitor analog memories are well suited to a number of applications where a continuous di...
International audienceSAMPIC is a Time and Waveform to Digital Converter (TWDC) multichannel chip. I...
The readout system for the new TRACE detector requires monitorization and sampling of all pulses in ...
One of the most challenging detectors of the NA62 experiment is the silicon tracker, called Gigatrac...
The TDCpix ASIC is the readout chip for the Gigatracker station of the NA62 experiment. Each station...
SamPic0 is a Waveform and Time to Digital Converter (WTDC) multichannel chip providing outstanding t...
A mixed-signal ASIC for timing and energy measurements with radiation detectors is described. The ch...
Dans un contexte de réduction des tailles de transistors dans les technologies CMOS très avancées en...
An approach and its implementation in 0.18 m CMOS process of the multichannel ASIC for capacitive (u...
Aggressive scaling of CMOS technology into deep sub-micron nodes enables analog front-end circuitrie...