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FPGA-Based Interface of Digital DAQ System for Double-Scattering Compton Camera.

Soo Mee Kim1, Young Soo Kim2

  • 11Maritime ICT R&D Center, Korea Institute of Ocean Science & Technology, 385 Haeyang-ro, Yeongdo-gu, Busan, 49111 South Korea.

Nuclear Medicine and Molecular Imaging
|December 13, 2018
PubMed
Summary
This summary is machine-generated.

A new digital data acquisition board was developed for double-scattering Compton cameras. This system enhances radiation imaging by improving coincidence detection for energy spectra and spatial distributions.

Keywords:
Double-scattering Compton camera (DSCC)FPGA-based digital DAQ systemPrompt gamma imagingSync calibration of interface between ADC and FPGA

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Area of Science:

  • Nuclear Instrumentation
  • Radiation Detection and Imaging

Background:

  • The double-scattering Compton camera (DSCC) is crucial for radiation imaging, providing source energy spectra and 3D spatial distributions.
  • CdZnTe (CZT) detectors are integral to DSCC, measuring energies and locations for image reconstruction.

Purpose of the Study:

  • To develop a digital data acquisition (DAQ) board for enhanced coincidence detection in DSCC research.
  • To support the reconstruction of emission energies and spatial images using CZT detectors.

Main Methods:

  • The DAQ board integrates 12 ADCs and one FPGA to digitize 96-channel CZT signals at 50 MHz.
  • Sync calibrations were performed on all ADC channels to align clock signals for accurate data capture within the FPGA.
  • FPGA logic incorporated IDELAY, IDDR components, shift registers, and bit slip buffers for signal processing.

Main Results:

  • Deskew test patterns determined IDELAY values for optimal bit clock alignment.
  • MSB test patterns identified bit slip in 12-bit ADC samples.
  • The interface between ADCs and FPGA showed a mean R^2 goodness-of-fit of 0.95 with synthetic Gaussian signals.

Conclusions:

  • The developed DAQ board successfully facilitates accurate data acquisition for DSCC systems.
  • Sync calibration and FPGA logic ensure reliable performance of the CZT detector interface.
  • The system demonstrates high fidelity in capturing and processing radiation detection data.