Abstract:
Efficient modeling techniques are required to accelerate design space exploration for integrated spiral inductors. In this letter, closed-form modeling techniques for th...View moreNotes: Expression of Concern: After careful consideration by a duly constituted committee, an author of this article, Yehia Massoud, was found to have acted in violation of the IEEE Publication Principles by artificially inflating the number of citations to the article.
Metadata
Abstract:
Efficient modeling techniques are required to accelerate design space exploration for integrated spiral inductors. In this letter, closed-form modeling techniques for the inductor's physical inductance and substrate eddy currents are introduced. The model provides several orders of magnitude performance improvement over field-solver-based approaches with typical errors of less than 4% while demonstrating excellent agreement with measured data from fabricated inductors.
Notes: Expression of Concern: After careful consideration by a duly constituted committee, an author of this article, Yehia Massoud, was found to have acted in violation of the IEEE Publication Principles by artificially inflating the number of citations to the article.
Published in: IEEE Electron Device Letters ( Volume: 27, Issue: 12, December 2006)