Coupled Drives Tension and Velocity Control Model

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written by Jacobo Saenz and Luis de la Torre

The Coupled Drives Tension and Velocity Control Model simulates the use of a proportional-integral-derivative (PID) controller to he tension and the angular velocity of the pulley in a coupled drive system. This system consist in two drive motors and a pulley which are connected through elastic belts. The jockey pulley is mounted on an arm, that is supported by a spring whose elongation is an indirect measure of the tension in the drive belt. The motors torque can be controlled either manually or with PID, while the motor movement affect the tension and velocity in the pulley. The velocity can be obtained immediately and using the jockey pulley measurements (angle or position) we obtain the tension.

This EJS simulation is based on a real system running at the Spanish Open University for Distance Education (UNED). The real system is used as a remote laboratory for learning purposes and a different application created with EJS (visually identical to this simulation) serves as graphical user interface to operate the remote laboratory.

Please note that this resource requires at least version 1.6 of Java (JRE).

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Last Modified: September 2, 2014
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Subjects	Levels	Resource Types
Classical Mechanics - Applications of Newton's Laws = Dynamic Torque Electricity & Magnetism - DC Circuits = Currents - Electromagnetic Induction = Motors and Generators	- Upper Undergraduate - Professional Development	- Instructional Material = Simulation

Intended Users	Formats	Ratings
- Learners - Educators	- application/java	Currently 0.0/5 Want to rate this material? Login here!

Access Rights:: Free access
License:: This material is released under a Creative Commons Attribution-Share Alike 3.0 license.
Rights Holder:: Jacobo Saenz
Record Cloner:: Metadata instance created April 15, 2014 by Wolfgang Christian
Record Updated:: September 2, 2014 by Wolfgang Christian
Other Collections:: The Open Source Physics

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<a href="https://www.compadre.org/portal/items/detail.cfm?ID=13238">Saenz, Jacobo, and Luis de la Torre. "Coupled Drives Tension and Velocity Control Model."</a>

AIP Format

J. Saenz and L. de la Torre, Computer Program COUPLED DRIVES TENSION AND VELOCITY CONTROL MODEL (2014), WWW Document, (https://www.compadre.org/Repository/document/ServeFile.cfm?ID=13238&DocID=3769).

AJP/PRST-PER

J. Saenz and L. de la Torre, Computer Program COUPLED DRIVES TENSION AND VELOCITY CONTROL MODEL (2014), <https://www.compadre.org/Repository/document/ServeFile.cfm?ID=13238&DocID=3769>.

APA Format

Saenz, J., & de la Torre, L. (2014). Coupled Drives Tension and Velocity Control Model [Computer software]. Retrieved April 26, 2024, from https://www.compadre.org/Repository/document/ServeFile.cfm?ID=13238&DocID=3769

Chicago Format

Saenz, Jacobo, and Luis de la Torre. "Coupled Drives Tension and Velocity Control Model." https://www.compadre.org/Repository/document/ServeFile.cfm?ID=13238&DocID=3769 (accessed 26 April 2024).

MLA Format

Saenz, Jacobo, and Luis de la Torre. Coupled Drives Tension and Velocity Control Model. Computer software. 2014. Java (JRE) 1.6. 26 Apr. 2024 <https://www.compadre.org/Repository/document/ServeFile.cfm?ID=13238&DocID=3769>.

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@misc{ Author = "Jacobo Saenz and Luis de la Torre", Title = {Coupled Drives Tension and Velocity Control Model}, Year = {2014} }

Refer Export Format

%A Jacobo Saenz %A Luis de la Torre %T Coupled Drives Tension and Velocity Control Model %D 2014 %U https://www.compadre.org/Repository/document/ServeFile.cfm?ID=13238&DocID=3769 %O application/java

EndNote Export Format

%0 Computer Program %A Saenz, Jacobo %A de la Torre, Luis %D 2014 %T Coupled Drives Tension and Velocity Control Model %U https://www.compadre.org/Repository/document/ServeFile.cfm?ID=13238&DocID=3769

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Coupled Drives Tension and Velocity Control Model:

Is Based On Easy Java Simulations Modeling and Authoring Tool

The Easy Java Simulations Modeling and Authoring Tool is needed to explore the computational model used in the Couples Drives Tension and Velocity Control Model.

relation by Wolfgang Christian

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