An important step forward in continuous spectroscopic imaging of ionising radiations using ASICs

Characterization results are given for an original ASIC allowing continuous acquisition of ionising radiation images in spectroscopic mode. Ionising r adiation imaging in general and spectroscopic imaging in particular must pr imarily be guided by the attempt to decrease statistical noise, which requi res detection systems designed to allow very high counting rates. Any sourc e of dead time must therefore be avoided. Thus, the use of on-line correcti ons of the inevitable dispersion of characteristics between the large numbe r of electronic channels of the detection system, shall be precluded. Witho ut claiming to achieve ultimate noise levels, the work described is focused on how to prevent good individual acquisition channel noise performance fr om being totally destroyed by the dispersion between channels without intro ducing dead times. With this goal, we developed an automatic charge amplifi er output voltage offset compensation system which operates regardless of t he cause of the offset (detector or electronic). The main performances of t he system are the following. the input equivalent noise charge is 190 e rms (input non connected, peaking time 500 ns), the highest gain is 255 mV/fC, the peaking time is adjustable between 200 mu s and 2 us and the power con sumption is 10 mW per channel. The agreement between experimental data and theoretical simulation results is excellent. (C) 1999 Elsevier Science B.V. All rights reserved.