A Power Amplifier Employing Filter-Based Matching Networks for Enhanced Bandwidth and Efficiency
ID:111 View Protection:ATTENDEE Updated Time:2025-12-23 13:12:22 Hits:335 Online

Start Time:2025-12-30 12:00(Asia/Amman)

Duration:15min

Session:S6 Special Track 1 : Mathematical Modeling for Electrical and Electronic Engineering: Theory, Methods, and Applications » S6Special Track 1 : Mathematical Modeling for Electrical and Electronic Engineering: Theory, Methods, and Applications

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Abstract
This paper presents a broadband high-efficiency power amplifier (PA) operating from 2.4 to 3.8 GHz, developed through a design strategy that exploits filter-based impedance matching networks. Instead of relying on conventional narrowband matching circuits, the proposed topology adopts a coupled-line structure derived from bandpass filter theory to achieve smooth impedance transformation, wideband performance, and inherent harmonic attenuation. Both the input and output matching networks are analytically synthesized to emulate bandpass characteristics, ensuring well-controlled impedance trajectories across the operating band. Employing a 10 W GaN HEMT transistor, the designed broadband PA achieves a nearly flat small gain of 11–16 dB, an output power of 38.7–40.9 dBm, and a drain efficiency up to 76.2 %. These results confirm the validity of integrating filter-inspired matching topologies as an effective and compact route toward next-generation broadband PAs. This research work directly supports SDG 9 (Industry, Innovation and Infrastructure) by enabling more capable and energy-efficient communication networks.
Keywords
Broadband power amplifier; filter-based matching network; impedance synthesis; coupled-line structure; harmonic control; GaN HEMT; bandwidth enhancement; high efficiency
Speaker
Ahmed S.I. Amar
Assistant Professor Egyptian Technical Research and Development Centre

Submission Author
Mohamed Boumalkha Department of Physics Faculty of Sciences; Moulay Ismail University Meknes; Morocco
Ahmed S.I. Amar Egyptian Technical Research and Development Centre
Naser Ojaroudi Parchin Edinburgh Napier University
Zakaria Che Muda Malaysia;Faculty of Engineering and Quantity Surveying INTI-IU University Nilai
Tamer Shamseldin Technical Research Center; Cairo; 11618; Egypt
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Important Date
  • Conference Date

    Dec 29

    2025

    to

    Dec 31

    2025

  • Dec 20 2025

    Draft paper submission deadline

  • Dec 31 2025

    Contribution Submission Deadline

  • Dec 31 2025

    Registration deadline

Sponsored By
United Societies of Science
Organized By
Zarqa University
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