A Tool and Methodology for AC-Stability Analysis of Continuous-Time Closed-Loop Systems

TL;DR

This paper introduces a comprehensive methodology and a user-friendly DFII-based tool for AC-stability analysis of continuous-time closed-loop systems, enabling detailed diagnostics and interpretation without traditional black-box methods.

Contribution

It presents a novel, integrated approach and tool for AC-stability analysis that identifies local and main-loop instabilities directly within the circuit environment.

Findings

Provides easy identification of stability issues and oscillation frequencies.

Estimates phase margin and maps instability nodes to circuit nodes.

Operates within DFII environment without technology dependence.

Abstract

Presented are a methodology and a DFII-based tool for AC-stability analysis of a wide variety of closed-loop continuous-time (operational amplifiers and other linear circuits). The methodology used allows for easy identification and diagnostics of ac-stability problems including not only main-loop effects but also local-instability loops in current mirrors, bias circuits and emitter or source followers without breaking the loop. The results of the analysis are easy to interpret. Estimated phase margin is readily available. Instability nodes and loops along with their respective oscillation frequencies are immediately identified and mapped to the existing circuit nodes thus offering significant advantages compared to traditional "black-box" methods of stability analysis (Transient Overshoot, Bode and Phase margin plots etc.). The tool for AC-Stability analysis is written in SKILL? and is fully integrated in DFII? environment. Its "push-button" graphical user interface (GUI) is easy to use and understand. The tool can be invoked directly from Composer? schematic and does not require active Analog Artist? session. The tool is not dependent on the use of a specific fabrication technology or Process Design Kit customization. It requires OCEAN?, Spectre? and Waveform calculator capabilities to run.