The Experts below are selected from a list of 89961 Experts worldwide ranked by ideXlab platform
Haruichi Kanaya - One of the best experts on this subject based on the ideXlab platform.
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bandwidth enhancement of 5g parallel coupled line band pass Filter using patterned ground structure technique
International Journal of Integrated Engineering, 2020Co-Authors: Ummi Haziqah Morshidi, D. N. A. Zaidel, Dayang Azra Awang Mat, Norhudah Seman, Melvin Philip Attan, M R M Sharip, Haruichi KanayaAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented.
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60 ghz band low loss on chip band pass Filter with patterned ground shields for millimeter wave cmos soc
International Microwave Symposium, 2011Co-Authors: Ramesh K. Pokharel, Ruibing Dong, A B A Dayang, Haruichi Kanaya, Keiji YoshidaAbstract:This paper presents a design of an improved on-chip open loop resonator band pass Filter (OLR-BPF) for 60 GHz millimeter-wave applications in 0.18 µm CMOS technology. The proposed on-chip BPF employs the folded open loop structure on patterned ground shields. The adoption of a folded structure for the OLR-BPF and utilization of two transmissions zero permits a compact size and high selectivity for the BPF. In addition, the patterned ground shields obviously slowed down the guided waves, which enables a further reduction of the physical length of the resonator and finally an improvement of the insertion loss of the BPF. By comparison between the electromagnetic (EM) simulations and measurement results, the proposed BPF has the center frequency of 59 GHz, insertion loss 2.77 dB, band width 14 GHz, return loss is less than 27.5 dB, and chip size 910×650 µm2 (including bonding pads).
Ummi Haziqah Morshidi - One of the best experts on this subject based on the ideXlab platform.
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bandwidth enhancement of 5g parallel coupled line band pass Filter using patterned ground structure technique
International Journal of Integrated Engineering, 2020Co-Authors: Ummi Haziqah Morshidi, D. N. A. Zaidel, Dayang Azra Awang Mat, Norhudah Seman, Melvin Philip Attan, M R M Sharip, Haruichi KanayaAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented.
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Bandwidth Enhancement of 5G Parallel Coupled Line Band Pass Filter Using Patterned Ground Structure Technique
'Penerbit UTHM', 2020Co-Authors: D. N. A. Zaidel, Dayang Azra Awang Mat, Ummi Haziqah Morshidi, Melvin Philip Attan, M R M Sharip, Kanaya Haruichi, Norhudah SemanAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented
Norhudah Seman - One of the best experts on this subject based on the ideXlab platform.
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bandwidth enhancement of 5g parallel coupled line band pass Filter using patterned ground structure technique
International Journal of Integrated Engineering, 2020Co-Authors: Ummi Haziqah Morshidi, D. N. A. Zaidel, Dayang Azra Awang Mat, Norhudah Seman, Melvin Philip Attan, M R M Sharip, Haruichi KanayaAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented.
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Bandwidth Enhancement of 5G Parallel Coupled Line Band Pass Filter Using Patterned Ground Structure Technique
'Penerbit UTHM', 2020Co-Authors: D. N. A. Zaidel, Dayang Azra Awang Mat, Ummi Haziqah Morshidi, Melvin Philip Attan, M R M Sharip, Kanaya Haruichi, Norhudah SemanAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented
D. N. A. Zaidel - One of the best experts on this subject based on the ideXlab platform.
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bandwidth enhancement of 5g parallel coupled line band pass Filter using patterned ground structure technique
International Journal of Integrated Engineering, 2020Co-Authors: Ummi Haziqah Morshidi, D. N. A. Zaidel, Dayang Azra Awang Mat, Norhudah Seman, Melvin Philip Attan, M R M Sharip, Haruichi KanayaAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented.
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Bandwidth Enhancement of 5G Parallel Coupled Line Band Pass Filter Using Patterned Ground Structure Technique
'Penerbit UTHM', 2020Co-Authors: D. N. A. Zaidel, Dayang Azra Awang Mat, Ummi Haziqah Morshidi, Melvin Philip Attan, M R M Sharip, Kanaya Haruichi, Norhudah SemanAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented
Dayang Azra Awang Mat - One of the best experts on this subject based on the ideXlab platform.
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bandwidth enhancement of 5g parallel coupled line band pass Filter using patterned ground structure technique
International Journal of Integrated Engineering, 2020Co-Authors: Ummi Haziqah Morshidi, D. N. A. Zaidel, Dayang Azra Awang Mat, Norhudah Seman, Melvin Philip Attan, M R M Sharip, Haruichi KanayaAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented.
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Bandwidth Enhancement of 5G Parallel Coupled Line Band Pass Filter Using Patterned Ground Structure Technique
'Penerbit UTHM', 2020Co-Authors: D. N. A. Zaidel, Dayang Azra Awang Mat, Ummi Haziqah Morshidi, Melvin Philip Attan, M R M Sharip, Kanaya Haruichi, Norhudah SemanAbstract:This paper presents the design of parallel coupled line band pass Filter with 10 GHz operating frequency that will be used in 5G applications. As 5G application requires big data usage and to cater the applications, the bandwidth of 5G devices need to be wider enough to support it. Thus, to improve the bandwidth performance of the designed Filter, patterned ground structure (PGS) technique is implemented into it. The result shows that the bandwidth of the designed Filter has been improved from 0.25 GHz to 4.98 GHz when PGS is implemented
