Title :
FPGA-Based Self-Calibrating Time-to-Digital Converter for Time-of-Flight Experiments
Author :
Junnarkar, Sachin S. ; O´Connor, Patrick ; Vaska, Paul ; Fontaine, Réjean
Author_Institution :
Brookhaven Nat. Lab., Upton, NY, USA
Abstract :
We describe the architecture of a FPGA-based self-calibrating Time to Digital Converter (TDC), specifically intended to measure the width of an input pulse. The configuration consists of two controllable ring oscillators with a very small difference in their frequencies, wherein this difference determines the achievable resolution. The calibration scheme relies on an accurate pulse-generator or external crystal-oscillator to provide a stable calibration pulse for the system. We implemented the TDC on an Altera Stratix II device where we measured a Least Significant Bit of 41 ps (an RMS resolution of 11.8 ps). We present details of the methods used to calibrate the TDC, the characterization process, and discuss the effects of variations in temperature and voltage.
Keywords :
calibration; crystal oscillators; field programmable gate arrays; pulse generators; Altera Stratix II device; FPGA; TDC; controllable ring oscillators; external crystaloscillator; pulse-generator; self-calibrating time-to-digital converter; time-of-flight experiments; Application specific integrated circuits; Calibration; Clocks; Delay; Field programmable gate arrays; Frequency; Positron emission tomography; Pulse measurements; Ring oscillators; Time measurement; FPGA; TDC; TOF; ring oscillator; self-calibration;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2009.2025180
