Analyzing feedback: Properly simulating the open loop

Author

Ochoa, Agustin

Author_Institution

Rockwell Semicond. Syst., San Diego, CA, USA

fYear

1998

fDate

9-12 Aug 1998

Firstpage

224

Lastpage

228

Abstract

Relative stability in a feedback system is usually characterized by its phase margin, a quantity obtained from the system `open loop gain´. This terminology, while appropriate for ideal systems, is misleading when applied to real systems where loading and feedforward effects are lost if the loop is simply opened. This paper presents a new and complete method for finding the fully loaded loop gain for a feedback system using the driving point impedance/signal flow graph methodology. An analytical solution is presented first and then used to define properly loaded coupled circuits for computer simulation. The resulting analysis is exact limited only by the device models and CAD package

Keywords

SPICE; analogue integrated circuits; circuit CAD; circuit feedback; circuit stability; coupled circuits; integrated circuit design; integrated circuit yield; signal flow graphs; CAD package; device models; driving point impedance; feedback system; feedforward effects; fully loaded loop gain; ideal systems; loaded coupled circuits; open loop; phase margin; relative stability; signal flow graph methodology; Analytical models; Circuits; Electrical capacitance tomography; Feedback loop; Flow graphs; Impedance; Operational amplifiers; Read only memory; SPICE; Terminology;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems, 1998. Proceedings. 1998 Midwest Symposium on

Conference_Location

Notre Dame, IN

Print_ISBN

0-8186-8914-5

Type

conf

DOI

10.1109/MWSCAS.1998.759474

Filename

759474