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Testing Time Optimization Technique for IEEE 802.15.4z Ultra-Wideband Integrated Circuits

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
IEEE 802.15.4z-compliant ultra-wideband (UWB) devices are becoming ever more popular in contemporary radio engineering systems. Such systems are capable of precisely measuring distances (with their accuracy expressed in centimeters), are immune to interference, offer low latency and transmit data in an energy-efficient manner. Widespread adoption of UWB technology has triggered significant demand for testing integrated circuits these systems rely on, prompting the development of new testing methods to meet the ever increasing requirements in terms of testing speed and reliability. The same applies to sensitivity tests, in the course of which up to 2000 different packets may be received. The process of generating and analyzing such a large number of packets is time consuming. Furthermore, if multiple devices need to be tested simultaneously, the duration of the test will be multiplied accordingly. In such a context, the article investigates the lead time required to generate 2000 UWB packets using conventional methods and proposes a novel approach to significantly reduce packet generation time and improve testing efficiency.
Rocznik
Tom
Strony
1--6
Opis fizyczny
Bibliogr. 13 poz., rys.
Twórcy
  • National Polytechnic University of Armenia, Yerevan, Armenia
  • National Polytechnic University of Armenia, Yerevan, Armenia
  • European University of Armenia, Yerevan, Armenia
Bibliografia
  • [1] G. Tsaturyan, S. Antonyan, and L. Movsisyan, "Testing of Integrated Circuit Operating with Ultra-wideband Technology", Scientific Proceedings of Vanadzor State University, 2022.
  • [2] M. Stocker et al., "On the Performance of IEEE 802.15.4z-Compliant Ultra-wideband Devices", Workshop on Benchmarking Cyber-Physical Systems and Internet of Things (CPS-IoTBench), Milan, Italy, 2022.
  • [3] P. Sedlacek, P. Masek, and M. Slanina, "An Overview of the IEEE 802.15.4z Standard and its Comparison to the Existing UWB Standards", 29th International Conference Radioelektronika, Pardubice, Czech Republic, 2019.
  • [4] R. Yang and R.S. Sherratt, "Multiband OFDM Modulation and Demodulation for Ultra Wideband Communications", in: Novel Applications of the UWB Technologies, 2011.
  • [5] Rohde & Schwarz, "Generation of IEEE 802.15.4 Signals", Application Note, 2016 (https://www.rohde-schwarz.com/us/applications/generation-of-ieee-802-15-4-signals-application-note_56280-95360.html).
  • [6] IEEE, "P802.15.4z/D06, Mar2020 - IEEE Draft Standard for Low-Rate Wireless Networks Amendment: Enhanced High Rate Pulse (HRP) and Low Rate Pulse (LRP) Ultra Wide-band (UWB) Physical Layers (PHYs) and Associated Ranging Techniques", 2020 (ISBN: 9781504465335).
  • [7] Keysight, "Keysight Fundamentals of Arbitrary Waveform Generation", 2015 (https://www.keysight.com/us/en/assets/9018-03815/reference-guides/9018-03815.pdf).
  • [8] National Instruments, "NI-FGEN User Manual", 2024 (https://www.ni.com/docs/en-US/bundle/ni-fgen/page/user-manual-welcome.html).
  • [9] M. Łuczyński, A. Dobrucki, and S. Brachmański, "Active Tone Elimination Algorithm Using FFT with Interpolation and Zero-padding", Signal Processing: Algorithms, Architectures, Arrangements, and Applications (SPA), Poznan, Poland, 2020.
  • [10] National Instruments, "PXIe-5820 Specifications", 2024 (https://www.ni.com/docs/en-US/bundle/pxie-5820-specs/page/specs.html).
  • [11] National Instruments, "PXIe-5831 Specifications", 2024 (https://www.ni.com/docs/en-US/bundle/pxie-5831-specs/page/specs.html).
  • [12] IEEE, "802.15.4-2020 - IEEE Standard for Low-rate Wireless Networks", 2020.
  • [13] R. Juran et al., "Hands-on Experience with UWB: Angle of Arrival Accuracy Evaluation in Channel 9", 2022 14th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), Valencia, Spain, 2022.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-872f0c42-cfb8-4570-8ecf-e336a2623082
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