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Projektowanie i wdrażanie wysoce precyzyjnego czterokanałowego miernika częstotliwości do 100 MHz i generatora impulsów z wykorzystaniem układu FPGA
Języki publikacji
Abstrakty
The frequency counter, also called frequency meter, is an auxiliary tool for measuring the frequencies of digital signals, which often requires high measurement accuracy, which counts the number of cycles entered per second. These devices are widely used in designing electronics and telecommunications to measure wave frequency. In this paper, a high-precision 4-channel frequency meter up to 100MHz with an error rate of 0% was designed and implemented in addition to a liquid crystal display (LCD) to display the value of the input frequency to be measured and up to 100MHz pulse generator also for the system testing without the need to use an external pulse generator using (SPARTAN 3EXC3S500 FPGA).
Częstotliwościomierz, zwany też częstościomierzem, jest narzędziem pomocniczym do pomiaru częstotliwości sygnałów cyfrowych, co często wymaga dużej dokładności pomiaru, która zlicza ilość wprowadzonych cykli na sekundę. Urządzenia te są szeroko stosowane w projektowaniu elektroniki i telekomunikacji do pomiaru częstotliwości fal. W tym artykule zaprojektowano i wdrożono bardzo precyzyjny 4-kanałowy miernik częstotliwości do 100 MHz ze stopą błędu 0% oraz wyświetlacz ciekłokrystaliczny (LCD) do wyświetlania wartości mierzonej częstotliwości wejściowej i do 100MHz generator impulsów również do testowania systemu bez konieczności stosowania zewnętrznego generatora impulsów z wykorzystaniem (SPARTAN 3E-XC3S500 FPGA).
Wydawca
Czasopismo
Rocznik
Tom
Strony
85--89
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
- Northern Technical University Mosul-Iraq
autor
- University of Mosul
- Northern Technical University Mosul-Iraq
Bibliografia
- 1. Juan Li , Fenxian Tian and Xinxin Sun, “Design and Implementation of a High Precision Frequency Meter based on Multimode”, Advances in Computer Science Research (ACSR), volume 90, 3rdInternational Conference on Computer Engineering, Information Science & Application Technology (ICCIA 2019)
- 2. Nemat A. A high-resolution digital frequency meter for low frequencies [J]. IEEE Transactions on Instrumentation & Measurement, 1990, 39(4):667
- 3. Li J, Ma X. The Design of Wide Input Range and High Precision Frequency Meter Based on FPGA[C]// International Conference on E-product E-service & E-entertainment. 2010
- 4. Sardar Masud Rana, Md. Anzan-Uz-Zaman, et-al, “Study on the Application of FPGA Based Frequency Counter Using VHDL Program with Nexus Board”, IE-42/VLSI-1, OCTOBER 2013
- 5. Haixin Sun, Yujie Fan and Qiang Xiang, “Design of SOPC digital frequency meter based on MicroBlaze”, Journal of Physics: Conference Series, Haixin Sun et al 2021 J. Phys.:Conf.Ser.1732 012164
- 6. M. J. MOURE, et-al, 2007, “AN FPGA-BASED SYSTEM FOR THE MEASUREMENT OF FREQUENCY NOISE AND RESOLUTION OF QCM SENSORS”, Latin American Applied Research, 37:25-30 (2007)
- 7. Hu Bing and Liu Xijun, 2011, “Design and Research of SOPC Embedded Digital Frequency Meter Based on FPGA”, M. Zhu (Ed.): ICCIC 2011, Part V, CCIS 235, pp. 476–482, 2011. Springer Verlag Berlin Heidelberg 2011
- 8. Yi-Yuan Fang and Xue-Jun Chen, 2012, “Design of Equal Precision Frequency Meter Based on FPGA”, Engineering, 2012, 4, 696-700 http://dx.doi.org/10.4236/eng.2012.410089 Published Online October 2012 (http://www.SciRP.org/journal/eng)
- 9. Peng Wang, et-al, 2014, “Frequency Meter with Equal Precision Based FPGA + MCU”, Applied Mechanics and Materials, ISSN: 1662-7482, Vol. 614, pp 308-311
- 10. HUANG rui, 2016, “ Design and Implementation of FPGA Based Digital Frequency Meter”, 6th International Conference on Machinery, Materials, Environment, Biotechnology and Computer (MMEBC 2016)
- 11. Xiaoliang Fu, et-al, 2018, “400MHz FREQUENCY/PHASE DETECTOR AND COUNTER”, 9th International Particle Accelerator Conference, ISBN: 978-3-95450-184-7m doi:10.18429/JACoW-IPAC2018-THPAK106
- 12. Haobin Dong, et-al, 2018, “A high-precision and fast-sampling frequency measurement method based on FPGA carry chain for airborne optically pumped cesium magnetometer”, 89(7):075001.doi: 10.1063/1.5036822.
- 13. C. Manjula and D. Jayadevappa, 2020, “FPGA BASED CLOCK FREQUENCY SENSOR AND RANGE ESTIMATING SYSTEM FOR TESTING MEMORIES AND PROCESSORS”, International Journal of Electrical Engineering and Technology (IJEET), Volume 11, Issue 5, July 2020, pp. 11-21, Article ID: IJEET_11_05_002
- 14. Carlos Jiménez Fernández, et-al, 2018, “FPGA design example for maximum operating frequency measurements”, Authorized licensed use limited to: Universidad de Sevilla. Downloaded on January 26, 2022 at 11:34:55 UTC from IEEE Xplore. Restrictions apply.
- 15. Xinglin Sun, et-al, 2022, “Frequency-Modulated Signal Measurement Using Closed-Loop Methodology”, Sensors 2022, 22, 7822. https://doi.org/10.3390/s22207822, https://www.mdpi.com/journal/sensors
- 16. Xilinx,” Spartan-3E FPGA Starter Kit Board User Guide”, UG230 (v1.2) January 20, 2011
- 17. "Using Digital Clock Managers (DCMs) in Spartan-3 FPGAs".xilinx.com
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-859b8293-a6d0-4484-8de2-3967b17d89f6