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The aim of this study is to design and evaluate a simple free running analog–digital converter (ADC) based on the field-programmable gate array (FPGA) device to accomplish the energy and position readout of the silicon photomultiplier (SiPM) array for application as positron emission computed tomography scanners. This simple FPGA-ADC based on a carry chain time-digital converter (TDC) implemented on a Kintex-7 FPGA consists of only one off-chip resistor so it has greater advantages in improving system integration and reducing cost than commercial chips. In this article, an FPGA-ADC-based front-end electronics prototype is presented, and both the design principle and implementation considerations are discussed. Experiments were performed using an 8 8 (crystal size: 4 mm 4 mm 15 mm) and a 12 12 (crystal size: 2. 65 mm 2. 65 mm 15 mm) segmented LYSO crystals coupled with an 8 8 SiPM (J-series, from ON Semiconductor) array which is under 22 Na point source excitation. Initial test results indicate that the energy resolution of the two detectors after correction is around 13. 2% and 13. 5% at 511 keV, and the profiles of the flood histograms show a clear visualization of the discrete scintillator element. All measurements were carried out at room temperature (~ 25°C), without additional cooling.
Ma et al. (Fri,) studied this question.