AC Motor Control Solution Control of diverse AC motors Typical use cases for the AC Motor Control Solution are highly dynamic control systems for different types of AC motors. Control of AC motors, e.g., asynchronous motors (ASMs), brushless DC motors (BLDCs) and permanent magnet synchronous motors (PMSMs) Suitable PWM generation for electric drives Connection of diverse position encoders RTI Blockset for MATLAB®/Simulink®Computer and Information Science » Numerical Analysis and Scientific Computing » "MATLAB for Engineers - Applications in Control, Electrical Engineering, IT and Robotics", book edited by Karel Perutka, ISBN 978-953-307-914-1, Published: October 13, 2011 under CC BY 3.0 license. Implementation of Induction Motor Drive Control Schemes in MATLAB/Simulink/dSPACE Environment for Educational Purpose By Christophe Versèle, Olivier Deblecker and Jacques Lobry Find out how to access preview-only content ChapterAdvances in Computer, Communication, Control and Automation

Volume 121 of the series Lecture Notes in Electrical Engineering pp 305-312A dSPACE DSP Control Platform for V/F Controlled Induction Motor Drive and Parameters Identification * Final gross prices may vary according to local VAT. This paper presents a full digital implementation of open loop and closed loop Volt-per-Hertz (V/F) Controlled Induction Motor Drive with dSPACE DS 1104 Hardware/Software and Matlab/Simulink environment for educational purpose. manny auto repair miami flA feature of this environment is a simple user interface, which requires a basic knowledge of Matlab/Simulink for designing the controller and motor parameter identification.carrier 3 ton air handler prices Share this content on Facebooklennox 3 ton ac unit cost

Share this content on Twitter Share this content on LinkedIn A dSPACE DSP Control Platform for V/F Controlled Induction Motor Drive and Parameters Identification Advances in Computer, Communication, Control and Automation Lecture Notes in Electrical Engineering Oil, Gas & GeosciencesdSPACE has just released the XSG AC Motor Control (XSG = Xilinx System Generator) Library software for developing control systems for electric drives.description The requested resource (/cms.action%3Fid=6953) is not available.Welcome to IR @ NIT Rourkela National Institute of Technology- Rourkela Title: DSPACE Implementation of Fuzzy Logic based Vector Control of Induction Motor Keywords: fuzzy controlfuzzy set theoryfuzzy systemsinduction motor drivesmachine vector contropower engineering computingvelocity control Citation: IEEE Region 10 Conference TENCON, Hyderabda, November 19-21,2008 Abstract: Vector control of induction motor is an efficient approach to control the speed of induction motor used for industrial drives.

Although the vector control is very popular method but there lies difficulty in obtaining an accurate model of induction motor (IM) owing to the variation of induction motor parameters, such as resistance, inductance and time constant. Therefore, to cope up with this uncertainty in the model we used a fuzzy logic based vector control approach to speed control of an induction motor. The focus of the paper is to analyze the real-time implementation issued for realizing a vector control in a laboratory set up of induction motor using dSPACE 1104. This fuzzy logic based vector control scheme has been successfully implemented on a 3 hp induction motor drive in the laboratory and the performances of this controller has been checked with a PID control strategy Appears in Collections:Conference Papers Show full item record Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated. Volume 17, Issue 6, July 2009, Pages 1071–1080 Real-time implementation of IRFOC for Single-Phase Induction Motor drive using dSpace DS 1104 control board Received 17 July 2008, Revised 19 January 2009, Accepted 12 March 2009, Available online 24 March 2009Single Phase induction Motors (SPIMs) are one of the widely used motors in the world.

This explains the interest accorded by researchers on the improvement of the quality and performances of these motors. The availability of low-cost static converters makes possible the economic use of energy and improvement of the quality of the electromagnetic torque in the SPIM. Nowadays, Indirect Rotor-Field-Oriented Control (IRFOC) techniques brought on a renaissance in modern high-performance control of PWM inverter fed SPIM. In this paper, an IRFOC system is proposed for SPIMs including a relatively simple and effective decoupling scheme. This is achieved by introducing two new decoupling signals to the system. However, model asymmetry in SPIMs causes extra coupling between two stator windings. To use the field orientation control, the asymmetry must be eliminated by using an appropriate variable changing. A computer simulation of the IRFOC for Single-Phase Induction Motor drive is carried out to test the validity of the proposed method at nominal and zero speed. The design, analysis, and implementation for a 1.1-kW Single-Phase Induction Motor are completely carried out using a dSPACE DS1104 digital signal processor (DSP) based real-time data acquisition control (DAC) system, and MATLAB/Simulink environment.

Digital simulation and experimental results are presented to show the improvement in performance of the proposed algorithm.Copyright © 2009 Elsevier B.V. Displaying 1 - 20 Hardware-in-the-loop simulator for your desk Expanded toolchain creates new possibilities Code generator to cover standards in development of embedded software Efficient data handling during testing and development Automation software modernises how ECU testing is performed Development platform features over 100 I/O channels Generator uses matrix calculations to provide high-quality code Software library smooths path to real time simulation i7 processor powers PC extension for prototyping system dSpace announces support for FMI Standard 2.0 Processor board from dSPACE boosts performance Software enables FPGA use in control tasks dSPACE TargetLink 3.4 Sets New Standards dSPACE SYNECT Test Management: ECU Tests and Test Data Under Control SCALEXIO: Test Systems That Evolve