High-performance microwave coplanar bandpass and bandstop filters on Si substrates

K. T. Chan; Albert Chin; Ming Fu Li; Dim Lee Kwong; Sean P. McAlister; D. S. Duh; W. J. Lin; Chi-Yang Chang

doi:10.1109/TMTT.2003.815890

High-performance microwave coplanar bandpass and bandstop filters on Si substrates

K. T. Chan^*, Albert Chin, Ming Fu Li, Dim Lee Kwong, Sean P. McAlister, D. S. Duh, W. J. Lin, Chi-Yang Chang

^*Corresponding author for this work

Department of Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

High-performance bandpass and bandstop microwave coplanar filters, which operate from 22 to 91 GHz, have been fabricated on Si substrates. This was achieved using an optimized proton implantation process that converts the standard low-resistivity (∼ 10 Ω · cm) Si to a semi-insulating state. The bandpass filters consist of coupled lines to form a series resonator, while the bandstop filter was designed in a double-folded short-end stub structure. For the bandpass filters at 40 and 91 GHz, low insertion loss was measured, close to electromagnetic simulation values. We also fabricated excellent bandstop filters with very low transmission loss of ∼ 1 dB and deep band rejection at both 22 and 50 GHz. The good filter performance was confirmed by the higher substrate impedance to ground, which was extracted from the well-matched S-parameter equivalent-circuit data.

Original language	American English
Pages (from-to)	2036-2040
Number of pages	5
Journal	IEEE Transactions on Microwave Theory and Techniques
Volume	51
Issue number	9
DOIs	https://doi.org/10.1109/TMTT.2003.815890
State	Published - 1 Sep 2003

Keywords

Bandpass
Bandstop
Filter
Integration
Millimeter wave
Si

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title = "High-performance microwave coplanar bandpass and bandstop filters on Si substrates",

abstract = "High-performance bandpass and bandstop microwave coplanar filters, which operate from 22 to 91 GHz, have been fabricated on Si substrates. This was achieved using an optimized proton implantation process that converts the standard low-resistivity (∼ 10 Ω · cm) Si to a semi-insulating state. The bandpass filters consist of coupled lines to form a series resonator, while the bandstop filter was designed in a double-folded short-end stub structure. For the bandpass filters at 40 and 91 GHz, low insertion loss was measured, close to electromagnetic simulation values. We also fabricated excellent bandstop filters with very low transmission loss of ∼ 1 dB and deep band rejection at both 22 and 50 GHz. The good filter performance was confirmed by the higher substrate impedance to ground, which was extracted from the well-matched S-parameter equivalent-circuit data.",

keywords = "Bandpass, Bandstop, Filter, Integration, Millimeter wave, Si",

author = "Chan, {K. T.} and Albert Chin and Li, {Ming Fu} and Kwong, {Dim Lee} and McAlister, {Sean P.} and Duh, {D. S.} and Lin, {W. J.} and Chi-Yang Chang",

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doi = "10.1109/TMTT.2003.815890",

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T1 - High-performance microwave coplanar bandpass and bandstop filters on Si substrates

AU - Chan, K. T.

AU - Chin, Albert

AU - Li, Ming Fu

AU - Kwong, Dim Lee

AU - McAlister, Sean P.

AU - Duh, D. S.

AU - Lin, W. J.

AU - Chang, Chi-Yang

PY - 2003/9/1

Y1 - 2003/9/1

N2 - High-performance bandpass and bandstop microwave coplanar filters, which operate from 22 to 91 GHz, have been fabricated on Si substrates. This was achieved using an optimized proton implantation process that converts the standard low-resistivity (∼ 10 Ω · cm) Si to a semi-insulating state. The bandpass filters consist of coupled lines to form a series resonator, while the bandstop filter was designed in a double-folded short-end stub structure. For the bandpass filters at 40 and 91 GHz, low insertion loss was measured, close to electromagnetic simulation values. We also fabricated excellent bandstop filters with very low transmission loss of ∼ 1 dB and deep band rejection at both 22 and 50 GHz. The good filter performance was confirmed by the higher substrate impedance to ground, which was extracted from the well-matched S-parameter equivalent-circuit data.

AB - High-performance bandpass and bandstop microwave coplanar filters, which operate from 22 to 91 GHz, have been fabricated on Si substrates. This was achieved using an optimized proton implantation process that converts the standard low-resistivity (∼ 10 Ω · cm) Si to a semi-insulating state. The bandpass filters consist of coupled lines to form a series resonator, while the bandstop filter was designed in a double-folded short-end stub structure. For the bandpass filters at 40 and 91 GHz, low insertion loss was measured, close to electromagnetic simulation values. We also fabricated excellent bandstop filters with very low transmission loss of ∼ 1 dB and deep band rejection at both 22 and 50 GHz. The good filter performance was confirmed by the higher substrate impedance to ground, which was extracted from the well-matched S-parameter equivalent-circuit data.

KW - Bandpass

KW - Bandstop

KW - Filter

KW - Integration

KW - Millimeter wave

KW - Si

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JO - IEEE Transactions on Microwave Theory and Techniques

JF - IEEE Transactions on Microwave Theory and Techniques

IS - 9

ER -

High-performance microwave coplanar bandpass and bandstop filters on Si substrates

Abstract

Keywords

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