Showing papers by "Jai Narayan Tripathi published in 2010"

Robust optimization of serial link system for signal integrity and power integrity

Abstract: Signal Integrity (SI) and Power Integrity (PI) are the most critical issues for higher operational speeds in semiconductor industry. This work identifies and optimizes the parameters of board, package and termination environment, influencing the signal integrity and power integrity of serial link. System level model has been created for USB HSLINK taking into account the external parameters like board, package, measurement environment which influence the performance of the channel. Parameters variations appearing from manufactura-bility constraints, material property constraints, design tolerance etc affecting the serial link performance has been optimized using Taguchi method based on statistical co-analysis. Using the Taguchi statistical techniques, sensitivity analysis on parameter variations affecting HSLINK performance is analyzed and optimized for desired performance.

Designing Asymmetric 2.4 GHz RF Oscillator for improving Signal Integrity by Design of Experiments

Abstract: Designing of an Asymmetric RF Oscillator for improved Signal Integrity, using Design of Experiments is presented and Taguchi Orthogonal Array is used for the same. Dependence of various physical parameters on output quality parameters that are Eye Height and Jitter, are shown by curves. Jitter is reduced and Eye Height is increased and as outcome of both, Eye SNR is increased. All in all, Designing of an Asymmetric Oscillator for better Signal Integrity is shown using Design of Experiments.

Designing Asymmetric 2.2 GHz RF Oscillator by design of experiments using Taguchi methods

Abstract: Designing of an Asymmetric RF Oscillator using Design of Experiments is presented and Taguchi Orthogonal Array is used for the same. Dependence of various physical parameters on output Quality Parameter, which is Phase Noise, is shown by curves. The improvement in Phase Noise is around 1.5 dB. All in all, Designing of an Asymmetric Oscillator is shown using Design of Experiments.