New single-capacitor simulations of floating inductors
TL;DR: In this article, the authors report new type of FI circuits which require only one GIC and thus employ only one capacitor together with a reduced number of resistors, while retaining the merits of the usual GIC-approach.
read more
Abstract: Out of various methods of floating inductance simulation known so far GIC-based methods of floating inductance simulation appear to be more suitable from the point of view of microelectronic application. However, a drawback of such configurations is their noncanonic nature due to the requirement of two GICs and hence two capacitors for simulating a first order impedance. This paper reports new type of FI circuits which require only one GIC and thus employ only one capacitor together with a reduced number of resistors, while retaining the merits of the usualGIC-approach.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Mutator for transferring a memristor emulator into meminductive and memcapacitive circuits
TL;DR: This newly proposed interface circuit, constructed by only two current conveyors, is equipped with three available ports, which can provide six connecting combinations in terms of one resistor, one capacitor, and one memristor.
64
Grounded and Floating Inductance Simulation Circuits Using VDTAs
Dinesh Prasad,Data Ram Bhaskar +1 more
TL;DR: New electronically-controllable lossless grounded and floating inductance simulation circuits have been proposed employing Voltage Differencing Transconductance Amplifiers (VDTA) and workability has been verified using SPICE simulation with TSMC CMOS 0.18 μm process parameters.
New Electronically-Controllable Lossless Synthetic Floating Inductance Circuit Using Single VDCC
Dinesh Prasad,Javed Ahmad +1 more
TL;DR: The main aim of the paper is to present a new floating inductance simulator using single active device with minimum passive components, which can be electronically controllable by changing the bias current.
Network transformations for incorporating nonideal simulated immittances in the design of active filters and oscillators
R. Senani
- 01 Aug 1987
TL;DR: In this article, the authors describe network transformations which make it possible to incorporate even nonideal (lossy) simulated inductance and FDNR elements directly into the filter design, leading to novel filter configurations having many advantageous features.
28
References
•Book
Principles of Active Network Synthesis and Design
Gobind Daryanani
- 01 Jan 1976
TL;DR: Network Analysis.
165
Loss-compensated active gyrator using differential-input operational amplifiers
TL;DR: A method of simulating grounded or floating inductance is described, which is dependent on invertor action associated with a well known T-π transformation, and which uses differential-input amplifiers.
75
Active filters and oscillators using simulated inductance
R.L. Ford,F.E.J. Girling +1 more
TL;DR: In this paper, a circuit for simulating an inductor is described, which uses standard voltage amplifiers and RC networks and is particularly suitable for use in high-pass filters and as a simple 2-phase oscillator circuit.
68
Method of replacing ungrounded inductors by grounded gyrators
A.G.J. Holt,James Taylor +1 more
TL;DR: The problem of replacing ungrounded inductors with grounded gyrators and capacitors is solved and a practical example of a low-pass third-order elliptic-function filter is given.
42
Application of a Gyrator-Type Circuit to Realize Ungrounded Inductors
TL;DR: Gyrator type circuit which requires only three amplifiers and which, when terminated with capacitor, can replace ungrounded inductor as discussed by the authors, which is a type of Gyrator circuit.
30