New charge-sensitive preamplifiers for the highly segmented HPGe detectors of AGATA have been designed and built, as developed to read out simultaneously the segment- and the core-electrode signals. A new fast-reset circuitry is used to reduce the deadtime brought about by a background of energetic particles in the 10 to 100 MeV range that could hit the detectors in nuclear-physics experiments with radioactive beams. The input Field Effect Transistor and the feedback resistor are placed in the detector cryostat and cooled to ∼120 K to minimize the electronic noise. The FET is biased at an unusually low drain voltage (2V) because a power budget of only 20 mW per FET is allowed for thermal-dissipation constraints in the cryostat. A differential output driver is used to transmit the analog signals through 5-m twisted-pair Ivds cables to an external Flash-ADC module. A precise programmable pulser has been developed and installed on a side of the "core" preamplifier board, to be used to inject a calibration pulse onto the core electrode and thereafter to all segments through the detector bulk capacitance.
The AGATA charge-sensitive preamplifiers with built-in active-reset device and pulser / A. Pullia, G. Pascovici, B. Cahan, D. Weisshaar, C. Boiano, R. Bassini, M. Petcu, F. Zocca - In: 2004 IEEE Nuclear science symposium conference record : nuclear science symposium and medical imaging conference, 16-22 October 2004, Rome, Italy / [a cura di] J. A. Seibert. - Disco ottico. - Piscataway, New Jersey : IEEE, 2004. - ISBN 0-7803-8701-5. - pp. 1411-1414 (( convegno Nuclear science symposium and medical imaging conference tenutosi a Roma nel 2004.
The AGATA charge-sensitive preamplifiers with built-in active-reset device and pulser
A. PulliaPrimo
;
2004
Abstract
New charge-sensitive preamplifiers for the highly segmented HPGe detectors of AGATA have been designed and built, as developed to read out simultaneously the segment- and the core-electrode signals. A new fast-reset circuitry is used to reduce the deadtime brought about by a background of energetic particles in the 10 to 100 MeV range that could hit the detectors in nuclear-physics experiments with radioactive beams. The input Field Effect Transistor and the feedback resistor are placed in the detector cryostat and cooled to ∼120 K to minimize the electronic noise. The FET is biased at an unusually low drain voltage (2V) because a power budget of only 20 mW per FET is allowed for thermal-dissipation constraints in the cryostat. A differential output driver is used to transmit the analog signals through 5-m twisted-pair Ivds cables to an external Flash-ADC module. A precise programmable pulser has been developed and installed on a side of the "core" preamplifier board, to be used to inject a calibration pulse onto the core electrode and thereafter to all segments through the detector bulk capacitance.
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