New design approach of Front-End Electronics for high-accuracy time measurement systems
Résumé
This paper discusses a detailed design approach to determine the optimal input impedance (
$Z_{in}$
) and bandwidth (BW) for current preamplifiers in Front End Electronics (FEE) of high-accuracy time measurement systems used in particle detection. Our study shows the effect of
$Z_{in}$
including the parasitic interconnection inductances of bonding wires between the detector and the FEE. We explain also the development of a new mathematical model for the estimation of the timing jitter of the current preamplifier in the case of using a low capacitor detector (
$C_{d}$
) as diamond. Tests and measurements of the response of a transimpedance amplifier (TIA) designed in a 130 nm 1P8M CMOS technology are used to demonstrates the accuracy of the design approach and the timing jitter estimation model.