Design and optimization of a compact microstrip BPF for wireless communication systems based on open-loop rectangular resonators

In a wireless communication chain, filters play a critical role in ensuring the efficiency, reliability, and overall performance of the system. In fact, filters are essential for selecting specific frequency bands. They can narrow or widen the bandwidth, depending on the requirements of the communic...

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Published in	Results in engineering Vol. 21; p. 101941
Main Authors	Khardioui, Youssef, El Alami, Ali, El Ghzaoui, Mohammed
Format	Journal Article
Language	English
Published	Elsevier B.V 01.03.2024 Elsevier
Subjects	Bandpass filter Fifth generation (5G) Insertion loss Open-loop resonators WiMAX Wireless communication systems WiMAX Bandpass filter Open-loop resonators Wireless communication systems Fifth generation (5G) Insertion loss
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Abstract	In a wireless communication chain, filters play a critical role in ensuring the efficiency, reliability, and overall performance of the system. In fact, filters are essential for selecting specific frequency bands. They can narrow or widen the bandwidth, depending on the requirements of the communication protocol. Appropriate bandwidth management is crucial for optimizing data transmission rates and accommodating multiple channels within the available spectrum. This article describes the design of a compact bandpass filter with two identical rectangular open-loop resonators. The proposed filter frequency response covers the 3.5 GHz global interoperability for microwave access (WiMAX) and fifth generation (5G) applications. The structure of this filter uses the Rogers RO6010 substrate, which has a dielectric constant of 10.2, thickness of 1.27 mm, and tangent loss of 0.0023. The proposed device is intended for wireless communication systems operating at 3.5 GHz. The filter offers a wide bandwidth of 1.21 GHz with a small size of (5.72 × 12.34) mm2, and a low insertion loss of −0.16 dB. The suggested filter offers effective utilization across various applications including fifth-generation (5G), sub-6G, and WiMAX. Simulation and optimization of the proposed design are conducted utilizing the HFSS (High Frequency Structure Simulator) software. To corroborate the results from HFSS, the ADS (Advanced Design System) software is employed. The simulation outcomes obtained from both HFSS and ADS simulators demonstrate close resemblance. •This article describes the design and optimization of a small microstrip band-pass filter for wireless communication systems like WiMAX that operate at 3.5 GHz and 5G applications.•The proposed band pass filter has very good performance in terms of return loss and insertion loss, as well as a high degree of selectivity within the interest band.•The proposed band-pass filter has a simpler structure: the architecture of the suggested filter is based on two rectangular open-loops. As a consequence, manufacturing the specified structure with microstrip technology is easy and economical.
AbstractList	In a wireless communication chain, filters play a critical role in ensuring the efficiency, reliability, and overall performance of the system. In fact, filters are essential for selecting specific frequency bands. They can narrow or widen the bandwidth, depending on the requirements of the communication protocol. Appropriate bandwidth management is crucial for optimizing data transmission rates and accommodating multiple channels within the available spectrum. This article describes the design of a compact bandpass filter with two identical rectangular open-loop resonators. The proposed filter frequency response covers the 3.5 GHz global interoperability for microwave access (WiMAX) and fifth generation (5G) applications. The structure of this filter uses the Rogers RO6010 substrate, which has a dielectric constant of 10.2, thickness of 1.27 mm, and tangent loss of 0.0023. The proposed device is intended for wireless communication systems operating at 3.5 GHz. The filter offers a wide bandwidth of 1.21 GHz with a small size of (5.72 × 12.34) mm2, and a low insertion loss of −0.16 dB. The suggested filter offers effective utilization across various applications including fifth-generation (5G), sub-6G, and WiMAX. Simulation and optimization of the proposed design are conducted utilizing the HFSS (High Frequency Structure Simulator) software. To corroborate the results from HFSS, the ADS (Advanced Design System) software is employed. The simulation outcomes obtained from both HFSS and ADS simulators demonstrate close resemblance. In a wireless communication chain, filters play a critical role in ensuring the efficiency, reliability, and overall performance of the system. In fact, filters are essential for selecting specific frequency bands. They can narrow or widen the bandwidth, depending on the requirements of the communication protocol. Appropriate bandwidth management is crucial for optimizing data transmission rates and accommodating multiple channels within the available spectrum. This article describes the design of a compact bandpass filter with two identical rectangular open-loop resonators. The proposed filter frequency response covers the 3.5 GHz global interoperability for microwave access (WiMAX) and fifth generation (5G) applications. The structure of this filter uses the Rogers RO6010 substrate, which has a dielectric constant of 10.2, thickness of 1.27 mm, and tangent loss of 0.0023. The proposed device is intended for wireless communication systems operating at 3.5 GHz. The filter offers a wide bandwidth of 1.21 GHz with a small size of (5.72 × 12.34) mm2, and a low insertion loss of −0.16 dB. The suggested filter offers effective utilization across various applications including fifth-generation (5G), sub-6G, and WiMAX. Simulation and optimization of the proposed design are conducted utilizing the HFSS (High Frequency Structure Simulator) software. To corroborate the results from HFSS, the ADS (Advanced Design System) software is employed. The simulation outcomes obtained from both HFSS and ADS simulators demonstrate close resemblance. •This article describes the design and optimization of a small microstrip band-pass filter for wireless communication systems like WiMAX that operate at 3.5 GHz and 5G applications.•The proposed band pass filter has very good performance in terms of return loss and insertion loss, as well as a high degree of selectivity within the interest band.•The proposed band-pass filter has a simpler structure: the architecture of the suggested filter is based on two rectangular open-loops. As a consequence, manufacturing the specified structure with microstrip technology is easy and economical.
ArticleNumber	101941
Author	El Ghzaoui, Mohammed Khardioui, Youssef El Alami, Ali
Author_xml	– sequence: 1 givenname: Youssef surname: Khardioui fullname: Khardioui, Youssef email: youssef.khardioui@gmail.com organization: Intelligent Renewable Energies, Information Processing and Transmission Laboratory, Faculty of Sciences and Technics, Errachidia, Morocco – sequence: 2 givenname: Ali surname: El Alami fullname: El Alami, Ali organization: Intelligent Renewable Energies, Information Processing and Transmission Laboratory, Faculty of Sciences and Technics, Errachidia, Morocco – sequence: 3 givenname: Mohammed surname: El Ghzaoui fullname: El Ghzaoui, Mohammed organization: Faculty of Sciences, Sidi Mohamed Ben Abdellah University, Fez, Morocco
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Cites_doi	10.1002/mop.32260 10.37934/araset.29.2.3852 10.3390/electronics10010051 10.1016/j.chip.2023.100058 10.2528/PIERL22032303 10.1016/j.prime.2023.100357 10.2528/PIERC16062204 10.1016/j.mssp.2022.107181 10.1007/s10825-021-01742-3 10.1109/TMTT.2007.914642 10.1109/22.643844
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Keywords	WiMAX Bandpass filter Open-loop resonators Wireless communication systems Fifth generation (5G) Insertion loss
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Snippet	In a wireless communication chain, filters play a critical role in ensuring the efficiency, reliability, and overall performance of the system. In fact,...
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SubjectTerms	Bandpass filter Fifth generation (5G) Insertion loss Open-loop resonators WiMAX Wireless communication systems
Title	Design and optimization of a compact microstrip BPF for wireless communication systems based on open-loop rectangular resonators
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