Journal of Electronic Systems

DLINE Journals portal

Home

New Journals

Browse Journals

Journal Prices

For Authors

Print ISSN:
Online ISSN:

About JISM
	DLINE Portal Home Home Aims & Scope Editorial Board Current Issue Next Issue Previous Issue Sample Issue Upcoming Conferences Self-archiving policy Alert Services Be a Reviewer Publisher Paper Submission Subscription Contact us

How To Order
	Order Online Price Information Request for Complimentary Print Copy

For Authors
	Guidelines for Contributors Online Submission Call for Papers Author Rights

RELATED JOURNALS

Journal of Digital Information Management (JDIM)

Journal of Multimedia Processing and Technologies (JMPT)

International Journal of Web Application (IJWA)

Journal of Electronic Systems

The Operational Conveyor System Based on the Steering Output Stage

Slobodan Djukic and Milan Veskovic
Faculty of Technical Science Cacak University of Kragujevac Svetog Save 65 32000 Cacak, Serbia

Abstract: In this paper we have presented the operational conveyor system which depends on the steering output stage. We have performed the Wilson current mirrors to study the current previse distribution of the equal parts. We found that the suggested operational conveyor has very good voltage and current transfer characteristics, and has constant gain band width product close to 2MHz. Moreover, the transistors with matched characteristics are not needed. The results of the simulation circuit with the PSPICE program are also presented in this study. The operational conveyor uses the standard electronic components and is suitable for the implementation in the integrated technics.

Keywords: Current-mode Processing Technique, Current Mirror, Current Conveyor, Operational Conveyor, Pspice Simulation The Operational Conveyor System Based on the Steering Output Stage

DOI:https://doi.org/10.6025/jes/2021/12/1/9-15

Full_Text PDF 2.81 MB Download: 185 times

References:

[1] Sedra, A., Smith, K. C. (1970). A second generation current conveyor and its applications, IEEE Trans. Circ. Theory, CT – 17, 132 - 134.
[2] Wilson, B. (1984). High-performance current conveyor implementation, Electronics Letters, 20, 990 - 991.
[3] Djukic, R. S., Veskovic, M, Vulovic, A. (2010). An improved precision full-wave rectifier for low-level signal, 9th International symposium on electronics and telecommunications (ISETC), 33 - 38. DOI :10.1109/ISETC. 2010.5679351., 2010.
[4] Sahu P., Sing M., Baishya A. (2010). A Novel Versatile Precision Full-Wave Rectifier, IEEE Transactions on instrumentation and measurement, 59 (10) 2742 - 2746.
[5] Al-Absi, Munir A. (2009). A novel highly accurate current mirror, Int. J. of Electronics, 96 (88) 781 - 786.
[6] Gift, S.J.G.., Maundy. Versatile Precision Full-Wave Rectifiers for Instrumentation and Measurement, IEEE Trans. Instrumentation and measurement, 56 (5) 1703 –1709.
[7] Hart, B. L., Hayatleh, K., Lidgey, F. J. (2006). A new type of unitygain current-mirror, Circuits and Systems, Gatinean, Quebec, Canada, IEEE North-East Workshop, June, 89-92.
[8] Wilson, B., Al-Gahtani, M., Vosper, J., Deloughry, R. (2006). High Precision Current Conveyor Implementation Employing a Current-Steering Output Stage, Int. J. of Electronics, 93 (10) 653 – 662.

DLINE Journals portal