Modeling of on-chip inductors and transformers for GaAs mmics

## Abstract The broad band behavioral models of on‐chip inductors and transformers are extracted from sampled frequency response data. A linearized least square based model parameter extraction algorithm is used to obtain ‘s’‐domain rational function model. Model order is optimized to strike a bala

A statistical description of the global performance of on-chip spiral inductors, based on extensive measurement is presented. These inductors were fabricated with different turn numbers or track lengths/track widths, but with the same spacing. From the S parameters measured using a de-embedding tech

## Abstract Several existing closed‐form equations for calculating DC inductance and resistance of single‐spiral inductors are examined at first, and the most accurate formula is chosen for characterizing the DC inductance of multilayer spiral inductors. The partial element equivalent circuit (PEEC

## Abstract Several existing closed‐form equations for calculating DC inductance and resistance of single‐spiral inductors are examined at first, and the most accurate formula is chosen for characterizing the DC inductance of multi‐layer spiral inductors. The partial element equivalent circuit (PEE

## Abstract An improved equivalent lumped‐element circuit model for predicting the transmission characteristics of spiral inductors is presented in this Letter. The improved model can simulate the forward transmission coefficient more accurately than the traditional model. By adding a shunt RC arm,

## Abstract A set of on‐chip spiral inductors with novel inner‐patterned‐ground (IPG) is presented in this article to enhance the broadband performance. By grounding the simple center metal cross, the IPG structure, an additional inner ground path is formed, the input impedance of the spiral induct