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Direct extraction of parasitic source and drain resistances in MOSFETs using saturation current ratio

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dc.contributor.author Park, Ji Won -
dc.contributor.author Jeong, Seonghyeon -
dc.contributor.author Lee, Hanbin -
dc.contributor.author Park, So-Jeong -
dc.contributor.author Im, Jeong Yeon -
dc.contributor.author Kim, Daehwan -
dc.contributor.author Lee, Yoonjung -
dc.contributor.author Kim, Dong Myong -
dc.contributor.author Choi, Sung-Jin -
dc.date.accessioned 2025-11-17T13:40:09Z -
dc.date.available 2025-11-17T13:40:09Z -
dc.date.created 2025-08-28 -
dc.date.issued 2025-11 -
dc.identifier.issn 0038-1101 -
dc.identifier.uri https://scholar.dgist.ac.kr/handle/20.500.11750/59167 -
dc.description.abstract We propose a saturation current ratio technique (SCRT) for the separate extraction of parasitic source and drain resistances (RS and RD) in metal–oxide–semiconductor field-effect transistors (MOSFETs). Unlike conventional methods that require multiple devices or prior knowledge of device parameters, SCRT enables accurate characterization of parasitic resistances using a single device through simple DC measurements. The technique employs a dual configuration by alternating the roles of the source and drain during forward and reverse measurement sweeps. By analyzing the ratio between the drain saturation currents measured in each configuration, SCRT effectively separates RS and RD by quantifying their individual contributions to the voltage drop across the source and drain terminals. Experimental validation on both n-channel and p-channel MOSFETs with various channel lengths and widths confirms the robustness, accuracy, and reproducibility of the proposed method. SCRT offers a practical and efficient approach for characterizing asymmetric parasitic resistances in individual devices, making it a reliable alternative to conventional extraction techniques. -
dc.language English -
dc.publisher Elsevier -
dc.title Direct extraction of parasitic source and drain resistances in MOSFETs using saturation current ratio -
dc.type Article -
dc.identifier.doi 10.1016/j.sse.2025.109209 -
dc.identifier.scopusid 2-s2.0-105013512378 -
dc.identifier.bibliographicCitation Solid-State Electronics, v.229 -
dc.description.isOpenAccess FALSE -
dc.subject.keywordAuthor Channel Resistance Method -
dc.subject.keywordAuthor Dual Configuration -
dc.subject.keywordAuthor Mosfet -
dc.subject.keywordAuthor Parasitic Resistance -
dc.subject.keywordAuthor Saturation Current Ratio Technique -
dc.subject.keywordAuthor Drain Current -
dc.subject.keywordAuthor Electron Beam Lithography -
dc.subject.keywordAuthor Heterojunction Bipolar Transistors -
dc.subject.keywordAuthor Mosfet Devices -
dc.subject.keywordAuthor Channel Resistance -
dc.subject.keywordAuthor Current Ratios -
dc.subject.keywordAuthor Metaloxide Semiconductor Field-effect Transistor (mosfets) -
dc.subject.keywordAuthor Parasitic Resistances -
dc.subject.keywordAuthor Parasitic Source Resistances -
dc.subject.keywordAuthor Saturation Current -
dc.subject.keywordAuthor Source And Drain Resistance -
dc.subject.keywordAuthor Extraction -
dc.citation.title Solid-State Electronics -
dc.citation.volume 229 -
dc.description.journalRegisteredClass scie -
dc.description.journalRegisteredClass scopus -
dc.type.docType Article -
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