In this work, design, implementation and test phases of a radiation sensor based on active pixel architectures are discussed. Fully standard CMOS technology has been exploited, allowing for easier integration of signal-processing circuitry. Alternative circuit schemes have been considered; a novel architecture, called WIPS, is introduced, aimed at a more efficient sparse-access mode of the sensor array. A first prototype of the chip has been fabricated, in a 0:18 mm CMOS technology. An automatic testing procedure has been devised, including design and fabrication of a suitable test board and of an optical bench. Preliminary results of the measurements are given, validating the overall approach and theoperatingprincipleoftheWIPSarchitecture.
Design and test of innovative CMOS pixel detectors
PASSERI, Daniele;PLACIDI, Pisana;
2004
Abstract
In this work, design, implementation and test phases of a radiation sensor based on active pixel architectures are discussed. Fully standard CMOS technology has been exploited, allowing for easier integration of signal-processing circuitry. Alternative circuit schemes have been considered; a novel architecture, called WIPS, is introduced, aimed at a more efficient sparse-access mode of the sensor array. A first prototype of the chip has been fabricated, in a 0:18 mm CMOS technology. An automatic testing procedure has been devised, including design and fabrication of a suitable test board and of an optical bench. Preliminary results of the measurements are given, validating the overall approach and theoperatingprincipleoftheWIPSarchitecture.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
