Sensibility study of the control loops of voltage and current mode controlled DC-DC converters by means of robust parametric control theory

Teaching feedback control theory is challenging because it is important to cover theoretical material intended for fundamental understanding as well as material directly related to industrial practice. One approach to reach this dual objective and prevent control theory from becoming abstract to students is to assign a design project that requires integration of all main concepts taught in class. This approach has been successfully used in eight offerings of the course ChE 3601 Process Dynamics and Control in the Chemical Engineering program at the University of New Brunswick. The one-semester course is an introduction to the dynamic behavior of chemical processes and feedback control loops. The project is assigned at the beginning of the course and involves the design of a feedback control system for a realistic chemical process. The design project is divided into five milestones with deliverables due every two weeks. The final report due at the end of the course must include a description of the proposed system using a P&I diagram, specifications for all control equipment, a dynamic model for all components of the feedback loop, settings for the tuning parameters of the PID controller, and dynamic simulations using Polymath to validate the proposed solution. The course is organized around the project in a manner similar to that used in problem-based learning. The active learning approach used in ChE 3601 provides a deeper understanding of control theory and its application.

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Economic policy optimization based on both one stochastic model and the parametric control theory

10.1063/1.4952159 ◽

2016 ◽

Author(s):

Abdykappar Ashimov ◽

Yuriy Borovskiy ◽

Mukhit Onalbekov

Keyword(s):

Economic Policy ◽

Control Theory ◽

Stochastic Model ◽

Parametric Control ◽

Policy Optimization

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Elements of Parametric Control Theory of Market Economic Development

Macroeconomic Analysis and Economic Policy Based on Parametric Control ◽

10.1007/978-1-4614-1153-6_1 ◽

2011 ◽

pp. 1-74

Author(s):

Abdykappar A. Ashimov ◽

Bahyt T. Sultanov ◽

Zheksenbek M. Adilov ◽

Yuriy V. Borovskiy ◽

Dmitriy A. Novikov ◽

...

Keyword(s):

Economic Development ◽

Control Theory ◽

Parametric Control ◽

Market Economic

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Current mode with RMS voltage and offset control loops for a single-phase aircraft inverter suitable for parallel and 3-phase operation modes

2011 IEEE Energy Conversion Congress and Exposition ◽

10.1109/ecce.2011.6064110 ◽

2011 ◽

Cited By ~ 3

Author(s):

P. Varela ◽

D. Meneses ◽

O. Garcia ◽

J. A. Oliver ◽

P. Alou ◽

...

Keyword(s):

Single Phase ◽

Current Mode ◽

Control Loops ◽

Operation Modes

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Square-Shape Current-Mode Supply for Parametric Control of the DBD Excilamp Power

IEEE Transactions on Industrial Electronics ◽

10.1109/tie.2014.2361601 ◽

2015 ◽

Vol 62 (3) ◽

pp. 1451-1460 ◽

Cited By ~ 12

Author(s):

David Florez ◽

Rafael Diez ◽

Hubert Piquet ◽

Abdel Karim Hay Harb

Keyword(s):

Current Mode ◽

Parametric Control

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Control of a Boost Converter to Improve the Performance of a Photovoltaic System in a Microgrid

Proceedings ◽

10.3390/proceedings2201270 ◽

2018 ◽

Vol 2 (20) ◽

pp. 1270 ◽

Cited By ~ 1

Author(s):

Miguel Ángel Abundis Fong ◽

Jaime José Rodriguez Rivas ◽

Oscar Carranza Castillo ◽

Rubén Ortega Gonzalez ◽

Juan Carlos Tellez Barrera

Keyword(s):

Current Mode ◽

Boost Converter ◽

Photovoltaic System ◽

Solar Panels ◽

Control Loops ◽

Current Mode Control ◽

System Input ◽

Average Current ◽

Average Current Mode Control ◽

Conduction Mode

In this work, the analysis of a CD-CD converter type Boost is presented. This converter works in Discontinuous Conduction Mode; In addition, the design of its control loops is performed, using an Average Current Mode control. The Boost converter is part of a photovoltaic generation system using solar panels. The photovoltaic system is established in a microgrid, with which the inverter works in grid mode and island mode. The main objective of the Boost convertor is to raise and regulate the voting from the solar panels to feed a single-bridge full-bridge inverter. The controllers designed for the boost converter are validated by simulation. The results obtained prove that the designed controller has an acceptable transient response to disturbances in the system input and adequately analyzing overdrafts and establishment times when disturbances are generated.

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