AMIC: An Expandable Front-End for Gamma-Ray Detectors With Light Distribution Analysis Capabilities

A novel CMOS integrated front-end architecture is presented throughout this paper. It is designed to be used with detectors based on continuous scintillation crystals plus position sensitive photomultiplier. Its structure aims at carrying out an analog computation which extracts fundamental information of the detected event. This fact allows us to avoid an individual acquisition of every input channel so that a large increase of inputs is feasible. In order to accomplish the processing task, a current buffer delivers a copy of each input signal to several computation blocks. Those processing units implement current mode analog filtering operations with a digitally programmable 8-bit precision coefficient for each front-end input. Output currents are summed and sent to the output stage where a buffered current output is provided. A voltage signal is also available by means of a rail-to-rail transresistance amplifier. The final goal is to obtain several moments of the light distribution on the detector surface. Each one provides useful information, such as energy, position, depth of interaction (from the light distribution width), skewness (deformation due to border effect), etc. Since the computation is purely additive, the current outputs can be used as inputs to other equal devices thus creating a fully expandable architecture.

[1]  Tobi Delbrück,et al.  Fully programmable bias current generator with 24 bit resolution per bias , 2006, 2006 IEEE International Symposium on Circuits and Systems.

[2]  G. Geelen,et al.  An inherently linear and compact MOST-only current division technique , 1992 .

[3]  K. Bult,et al.  An inherently linear and compact MOST-only current-division technique , 1992, 1992 IEEE International Solid-State Circuits Conference Digest of Technical Papers.

[4]  G. Talenti Recovering a function from a finite number of moments , 1987 .

[5]  Ron Hogervorst,et al.  A compact power-efficient 3 V CMOS rail-to-rail input/output operational amplifier for VLSI cell libraries , 1994 .

[6]  A. Del Guerra,et al.  BASIC: An 8-channel front-end ASIC for Silicon Photomultiplier detectors , 2009, 2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC).

[7]  A. Sebastia,et al.  Depth of /spl gamma/-ray interaction within continuous crystals from the width of its scintillation light-distribution , 2005, IEEE Transactions on Nuclear Science.

[8]  V. Herrero-Bosch,et al.  Fast circuit topology for spatial signal distribution analysis , 2010, 2010 17th IEEE-NPSS Real Time Conference.

[9]  H. Murayama,et al.  Design of new front-end electronics for animal PET , 2002, 2002 IEEE Nuclear Science Symposium Conference Record.

[10]  Néstor Ferrando,et al.  Depth of interaction detection for γ-ray imaging☆ , 2009 .

[11]  J. Benlloch,et al.  Position sensitive scintillator based detector improvements by means of an integrated front-end , 2009 .