Title :
CMOS Differential and Amplified Dosimeter with Field Oxide N-Channel MOSFETs
Author :
Carbonetto, S. ; GarcianInza, M. ; Lipovetzky, J. ; Carra, M.J. ; Redin, E. ; Sambuco Salomone, L. ; Faigon, A.
Author_Institution :
Device Phys.-Microelectron. Lab., Univ. de Buenos Aires, Buenos Aires, Argentina
Abstract :
We propose the use of a CMOS differential circuit with inherent amplification to enhance the performance of n-channel field oxide MOSFETs as ionizing radiation dosimeters. These new dosimeters are aimed to be used in low dose applications such as X-ray diagnosis. The circuit is presented and described, and a discrete-level prototype was tested as regards sensitivity, temperature variations compensation and signal-to-noise ratio at different operation conditions. Results show that, comparing to a single MOSFET dosimeter, on chip amplification is possible along with temperature induced error attenuation. The highest sensitivity measured with respect to γ radiation was 0.4 V/rad. The circuit successfully measured the dose delivered in an X-ray image diagnosis environment with a sensitivity of approximately 0.5 V/rad.
Keywords :
CMOS integrated circuits; MIS devices; MOSFET; dosimeters; CMOS amplified dosimeter; CMOS differential circuit; CMOS differential dosimeter; Field Oxide N-channel MOSFET; X-ray image diagnosis environment; discrete level prototype; ionizing radiation dosimeters; temperature induced error attenuation; CMOS integrated circuits; Dosimetry; Ionizing radiation; MOS devices; MOSFET; Radiation effects; Sensitivity; Dosimeters; MOS devices; radiation effects; solid-state detectors;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2014.2368361
