Title of article
Frequency-independent equivalent-circuit model for on-chip spiral inductors
Author/Authors
Hu، Chenming نويسنده , , Cao، Yu-Zhen نويسنده , , R.A.، Groves, نويسنده , , Huang، Xuejue نويسنده , , N.D.، Zamdmer, نويسنده , , R.A.، Wachnik, نويسنده , , King، Tsu-Jae نويسنده , , J.-O.، Plouchart, نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
-418
From page
419
To page
0
Abstract
A wide-band physical and scalable 2-/spl Pi/ equivalent circuit model for on-chip spiral inductors is developed. Based on physical derivation and circuit theory, closed-form formulas are generated to calculate the RLC circuit elements directly from the inductor layout. The 2-/spl Pi/ model accurately captures R(f) and L(f) characteristics beyond the self-resonant frequency. Using frequency-independent RLC elements, this new model is fully compatible with both ac and transient analysis. Verification with measurement data from a SiGe process demonstrates accurate performance prediction and excellent scalability for a wide range of inductor configurations.
Keywords
transformation , Oriented martensite , Self-accommodating martensite , TiNi film
Journal title
IEEE Journal of Solid- State Circuits
Serial Year
2003
Journal title
IEEE Journal of Solid- State Circuits
Record number
62880
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