Lumped-element transmission line in multi-layered substrate
First Claim
1. A lumped-element transmission line formed in a multi-layered substrate comprising:
- a first inductor formed on a fourth layer of the multi-layered substrate;
a second inductor formed on a third layer of the multi-layered substrate and electrically connected to the first inductor in series through a first via penetrating the substrate;
a first capacitor comprising two plates formed on a second layer and a first layer of the multi-layered substrate, wherein the plate formed on the second layer is connected to ground and the plate formed on the first layer is connected to the first via; and
a positive mutual inductance formed between the first inductor and the second inductor for improving frequency response of the lumped-element transmission line wherein the positive mutual inductance equals to a first value.
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Abstract
A lumped-element transmission line is formed in a multi-layered substrate. A mutual inductance between first and second inductors in a T-equivalent circuit model is enlarged to a designed positive value to widen the application frequency bandwidth of the transmission line. The second inductor is electrically connected to the first inductor in series at one end. The first and second inductors are spiral in shape and the orientations of the first inductor and the second inductor are the same so that the spirals progress in the same sense such that a mutual inductance between the first and second inductors is positive and equals a first value. A first capacitor is electrically connected to ground at a first end of the first capacitor, and a second end of the first capacitor is electrically connected to the end of the second inductor at which the second inductor in connected to the first inductor.
16 Citations
7 Claims
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1. A lumped-element transmission line formed in a multi-layered substrate comprising:
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a first inductor formed on a fourth layer of the multi-layered substrate; a second inductor formed on a third layer of the multi-layered substrate and electrically connected to the first inductor in series through a first via penetrating the substrate; a first capacitor comprising two plates formed on a second layer and a first layer of the multi-layered substrate, wherein the plate formed on the second layer is connected to ground and the plate formed on the first layer is connected to the first via; and a positive mutual inductance formed between the first inductor and the second inductor for improving frequency response of the lumped-element transmission line wherein the positive mutual inductance equals to a first value. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification
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- Resources
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Current AssigneeChi Mei Communication Systems Incorporated (Hon Hai Precision Industry Co., Ltd.)
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Original AssigneeChi Mei Communication Systems Incorporated (Hon Hai Precision Industry Co., Ltd.)
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InventorsLi, Ko-Mai, Lin, Yo-Shen
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Primary Examiner(s)Ham, Seungsook
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Application NumberUS10/708,619Publication NumberTime in Patent Office707 DaysField of Search333/167, 333177-180, 333/181, 333/185, 333/184, 336/200US Class Current333/167CPC Class CodesH01F 2017/0026 Multilayer LC-filterH03H 2001/0085 Multilayer, e.g. LTCC, HTCC...H03H 7/09 Filters comprising mutual i...H05K 1/0237 High frequency adaptations ...H05K 1/0298 Multilayer circuitsH05K 1/162 incorporating printed capac...H05K 1/165 incorporating printed induc...H05K 2201/09672 Superposed layout, i.e. in ...
