A solution for pulse measurement based on the time-to-digital principle using FPGA
109 viewsDOI:
https://doi.org/10.54939/1859-1043.j.mst.97.2024.173-176Keywords:
FPGA; Pulse measurement; Digital signal processing; Testing and evaluating.Abstract
The process of repairing and maintaining digital signal processing modules always requires specialized measuring equipment, which takes a long and tedious time. In order to reduce the time and cost of technical maintenance and repair, the authors proposed a design solution for pulse parameter measurement based on FPGA technology based on the time-to-digital converter principle. Currently, these pulse parameter meters are being applied in the 394ПП04-KT, module testing and analysis device.
References
[1]. Đài Ra đa KACTA2E2, Thuyết minh kỹ thuật, Tập 4, Hệ thống thiết bị thu và thiết bị xử lý. Quân chủng phòng không không quân.
[2]. The XYZs of Oscilloscopes, Primer, Tektronix, (2016).
[3]. R.Machado, J. Cabral and F. S. Alves, “Recent developments and challenges in FPGA-based time-to-digital converters”, IEEE Transactions on Instrumentation and Measurement, vol. 68, no. 11, pp.4205-4221, (2019).
[4]. B. V. Bockel, J. Prinzie, P. Leroux, “A delay locked loop for time-to-digital converters with quick recovery and low hysteresis,” TWEPP (2018).
[5]. D. Chaberski, “Time-to-digital-converter based on multiple-tapped-delay-line,” Measurement, Vol.92, pp.103-113, (2016).
[6]. L. Vercesi, A. Liscidini, R. Castello, “Two-dimensions Vernier time-to-digital converter,” IEEE J. Solid-State Circuits, 45 (8), pp.1504-1512, (2000).
[7]. J.Kalisz, “Review of methods for time interval measurement with picosecond resolution”, Metrologis, vol.41, pp.99-145.
[8]. Digital Storage Oscilloscope GDS-3352, User Manual, GwInstek.