Norator
This article will address the topic of Norator, an issue of great relevance and relevance in today's society. Norator has aroused great interest and debate in different areas, from the academic field to the political and social field. This issue has great complexity and diversity of approaches, which require a deep and exhaustive analysis. Throughout this article, different perspectives will be explored, contextualizing Norator within its historical and cultural framework, as well as examining its influence on various aspects of daily life. It is expected that this article contributes to the understanding and reflection on Norator, offering a comprehensive and critical vision of this topic of great relevance today.
In electronics, a norator is a theoretical linear, time-invariant one-port which can have an arbitrary current and voltage between its terminals. A norator represents a controlled voltage or current source with infinite gain.[1]
Inserting a norator in a circuit schematic provides whatever current and voltage the outside circuit demands, in particular, the demands of Kirchhoff's circuit laws. For example, the output of an ideal opamp behaves as a norator, producing nonzero output voltage and current that meet circuit requirements despite a zero input.
A norator is often paired with a nullator to form a nullor.
A nullator in parallel with a norator is equivalent to a short (zero voltage any current). A nullator in series with a norator is an open circuit (zero current, any voltage).
References
- ^ Verhoeven C J M van Staveren A Monna G L E Kouwenhoven M H L & Yildiz E (2003). Structured electronic design: negative feedback amplifiers. Boston/Dordrecht/London: Kluwer Academic. pp. §2.2.1.1 pp. 30–32. ISBN 1-4020-7590-1.