Analytical Models of Passive Linear Structures in Printed Circuit Boards

Peng, Zhenzhen; Su, D.

doi:10.1049/cje.2020.08.017

Cited by 2 publications

(3 citation statements)

References 25 publications

(20 reference statements)

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“…As shown in Fig. 1, the equivalent RLC circuit model is considered for evaluating CNT or GNR interconnects [16]. and are the driver resistance and capacitance, is the load capacitance, is the contact resistance, and , , and are per-unit-length (p.u.l.)…”

Section: Circuit Modellingmentioning

confidence: 99%

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Circuit Modeling and Performance Analysis of GNR@SWCNT Bundle Interconnects

Wensheng,

Mengjiao,

Xiang

et al. 2023

Chinese J. Elect.

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In this paper, the single-walled carbon nanotube (SWCNT) with graphene nanoribbon (GNR) inside, namely GNR@SWCNT, is proposed as alternative conductor material for the interconnect applications. The equivalent circuit model is established, and the circuit parameters extracted analytically. By virtue of the equivalent circuit model, the signal transmission performance of GNR@SWCNT bundle interconnect is evaluated and compared with its Cu and SWCNT counterparts. The optimal repeater insertions in global-and intermediate-level GNR@SWCNT bundle interconnect are studied. Moreover, it is demonstrated that the GNR@SWCNT interconnects could provide superior performance, indicating that GNR@SWCNT structure would be beneficial for development of future carbon-based integrated circuits and systems.

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Section: Circuit Modellingmentioning

confidence: 99%

“…According to [20], the capacitance of the GNR@SWCNT bundle is approximately same with the capacitance value for Cu wire with the same cross-dimensions. Therefore, is extracted using ANSYS Maxwell, with the parameter settings listed in Table 1 [16], and .…”

Section: Nanoscale Cumentioning

confidence: 99%

Circuit Modeling and Performance Analysis of GNR@SWCNT Bundle Interconnects

Wensheng,

Mengjiao,

Xiang

et al. 2023

Chinese J. Elect.

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show abstract

“…High port isolation can be achieved by fully differential and integrated transformer as illustrated in [18]. And the port isolation of the combiner can also be improved with the aid of metamaterial [19]. Nevertheless, the above methods are only suitable for single-section Wilkinson combiner because the added structure are usually large in dimensions and hence are not suitable for integration of multi-section WPC.…”

Section: Introductionmentioning

confidence: 99%

A Novel Wideband Wilkinson Pulse Combiner with Enhanced Low Frequency Isolation

Wang

2023

Chinese J. Elect.

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In this paper, a novel Wilkinson pulse combiner (WPC) is proposed for the combination of Gaussian pulse signals. The WPC requires a very wide bandwidth, small size and high port isolation. To improve the operating bandwidth, the design adopts the form of eight-section WPC. Eight capacitors are connected in series with the isolating resistors of each section. After capacitive loading, isolation between WPC input ports is significantly improved at low frequency. Consequently, the operating bandwidth of WPC has been increased from 13:1 to 31:1. Compared with the conventional Wilkinson combiner with the same bandwidth, the proposed WPC reduces the size by 40%. In addition, all the ports are well impedance matched and the insertion loss in the operating frequency band is less than 0.5 dB. To verify the feasibility of the design, a prototype was fabricated and measured. Experiment shows that the novel WPC is more advantageous to generate dual-Gaussian pulse signals.

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Analytical Models of Passive Linear Structures in Printed Circuit Boards

Cited by 2 publications

References 25 publications

Circuit Modeling and Performance Analysis of GNR@SWCNT Bundle Interconnects

Circuit Modeling and Performance Analysis of GNR@SWCNT Bundle Interconnects

A Novel Wideband Wilkinson Pulse Combiner with Enhanced Low Frequency Isolation

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