Compensation of Accuracy Error for Time Interval Measurements

1 Maichen, W. (2006). Digital Timing Measurements: From Scopes and Probes to Timing and Jitter (vol. 33). Springer US. https://doi.org/10.1007/978-0-387-31419-8 Search in Google Scholar

2 Alahdab, S., Mäntyniemi, A., & Kostamovaara, J. (2013). Review of a Time-to-Digital Converter (TDC) Based on Cyclic Time Domain Successive Approximation Interpolator Method with sub-ps-level Resolution. 2013 IEEE Nordic-Mediterranean Workshop on Time-to-Digital Converters (NoMe TDC), 1–5. https://doi.org/10.1109/NoMeTDC.2013.6658237 Search in Google Scholar

3 Tancock, S., Rarity, J., & Dahnoun, N. (2021). Developments in Time-to-Digital Converters during 2020. 2021 7th International Conference on Event-Based Control, Communication, and Signal Processing (EBCCSP), 1–5. https://doi.org/10.1109/EBCCSP53293.2021.9502397 Search in Google Scholar

4 El-Hadbi, A., Elissati, O., & Fesquet, L. (2019). Time-to-Digital Converters: A Literature Review and New Perspectives. 2019 5th International Conference on Event-Based Control, Communication, and Signal Processing (EBCCSP), 1–8. https://doi.org/10.1109/EBCCSP.2019.8836857 Search in Google Scholar

5 Johansson, S. (2021). Parallel, Multi-Channel Frequency & Time Measurements, with Picosecond Resolution. Sensors & Transducers, 254 (7), 1–9. Search in Google Scholar

6 Gan, Q., Wang, W., Liu, Y., & Liu, W. (2022). Study on the High Precision Time-Interval Measurement System Based on FPGA and TDC_GP22. 9th International Symposium on Test Automation & Instrumentation (ISTAI 2022), 380–382. https://doi.org/10.1049/icp.2022.3253 Search in Google Scholar

7 Li, X. (2011). The Application Research Based on High-Precision’s Measurement Method of Time Interval. 2011 International Conference on Multimedia Technology, 3713–3715. https://doi.org/10.1109/ICMT.2011.6002696 Search in Google Scholar

8 Szplet, R., Kwiatkowski, P., Jachna, Z., & Różyc, K. (2016). An Eight-Channel 4.5-ps Precision Timestamps-Based Time Interval Counter in FPGA Chip. IEEE Transactions on Instrumentation and Measurement, 65 (9), 2088–2100. https://doi.org/10.1109/TIM.2016.2564038 Search in Google Scholar

9 Zhao, J., Zhao, Z., & Fu, L. (2017). Research on the High Resolution Precision Time-interval Measurement Methods. Procedia Engineering, 174, 1257–1261. https://doi.org/10.1016/j.proeng.2017.01.298 Search in Google Scholar

10 Raina, H., Sankannawar, P., Sawant, V., & More, J. (2022). Implementation of Multi-Channel Time-to-Digital Converter using FPGA. 2022 2nd International Conference on Intelligent Technologies (CONIT), 1–6. https://doi.org/10.1109/CONIT55038.2022.9847891 Search in Google Scholar

11 Nissinen, J., Nissinen, I., & Kostamovaara, J. (2009). Integrated Receiver Including Both Receiver Channel and TDC for a Pulsed Time-of-Flight Laser Rangefinder with cm-Level Accuracy. IEEE Journal of Solid-State Circuits, 44 (5), 1486–1497. https://doi.org/10.1109/JSSC.2009.2017006 Search in Google Scholar

12 Crowder, S., Delker, C., Forrest, E., & Martin, N. (2020). Introduction to Statistics in Metrology. Springer Nature. Search in Google Scholar

13 Rutkowski, R. (n.d.). Crystal Oscillators: The Beginners Guide (OCXO, TCXO, VCXO, Clocks). Available at https://blog.bliley.com/quartz-crystal-oscillators-guide-ocxo-tcxo-vcxo-clocks Search in Google Scholar

14 Quartz Crystal Cuts: AT, BT, SC, CT. Electronics Notes. (n.d.). Available at https://www.electronics-notes.com/articles/electronic_components/quartz-crystal-xtal/crystal-resonator-cuts-at-bt-sc-ct.php Search in Google Scholar

15 Vectron International. (2014). Application Note. Coefficient Corrected Oscillator — CCXO. Available at https://www.vectron.com/products/literature_library/Coefficient_Corrected_Oscillator_Application_Note.pdf Search in Google Scholar