We report here an Ultra Low Noise CMOS charge-sensitive amplifier (CSA) and a CSA-Shaper for X-ray spectroscopy, suitable for a small anode capacitance, low leakage current solid state detector. The continuously sensitive CSA and CSA-Shaper use a MOS transistor MF to discharge the integration capacitance; a novel self-bias circuit biases MF in the GΩ region (subthreshold region) while tracking process, temperature and supply voltage variations. A T-Network in the DC-feedback improves the CSA gain linearity (within 0.1% up to 1.8 fC input charge). The CSA-Shaper features a novel Adaptive Pole-Zero cancellation scheme: the Zero in the Shaper adapts itself statically and dynamically to cancel the CSA Pole. The noise performance of the CSA has been measured: with no detector connected and MF pinched, the room-temperature equivalent noise charge (ENC) is 9e rms at 12 (is shaping time. When connected to a cooled detector (T = - 75°C), with MF in pinch off, an ENC of 13e rms is achieved (FHWM = 111 eV) at 2.4 μs shaping time. This is the best reported energy resolution ever obtained with a CMOS preamplifier
Ultra Low Noise CMOS Preamplifier-Shaper for X-Ray Spectroscopy / O'Connor, P.; Gramegna, G.; Rehak, P.; Corsi, Francesco; Marzocca, Cristoforo. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - 409:1-3(1998), pp. 315-321. [10.1016/S0168-9002(97)01289-8]
Ultra Low Noise CMOS Preamplifier-Shaper for X-Ray Spectroscopy
CORSI, Francesco;MARZOCCA, Cristoforo
1998-01-01
Abstract
We report here an Ultra Low Noise CMOS charge-sensitive amplifier (CSA) and a CSA-Shaper for X-ray spectroscopy, suitable for a small anode capacitance, low leakage current solid state detector. The continuously sensitive CSA and CSA-Shaper use a MOS transistor MF to discharge the integration capacitance; a novel self-bias circuit biases MF in the GΩ region (subthreshold region) while tracking process, temperature and supply voltage variations. A T-Network in the DC-feedback improves the CSA gain linearity (within 0.1% up to 1.8 fC input charge). The CSA-Shaper features a novel Adaptive Pole-Zero cancellation scheme: the Zero in the Shaper adapts itself statically and dynamically to cancel the CSA Pole. The noise performance of the CSA has been measured: with no detector connected and MF pinched, the room-temperature equivalent noise charge (ENC) is 9e rms at 12 (is shaping time. When connected to a cooled detector (T = - 75°C), with MF in pinch off, an ENC of 13e rms is achieved (FHWM = 111 eV) at 2.4 μs shaping time. This is the best reported energy resolution ever obtained with a CMOS preamplifierI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.