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Complete Motor Control development kits and reference designs for rapid prototyping and evaluation of 3-phase BLDC/PMSM, 3-phase sensorless BLDC/PMSM and 3-phase PMSM, and sensorless BLDC targeting automotive and industrial applications, without the need to wait for final hardware design.
Basic principle. An electric motor is a device converting electrical energy into mechanical energy (generally a torque). This conversion is usually obtained through the generation of a magnetic field by means of a current flowing into one or more coils. Electrical energy.
In designing motor control circuits to meet EMC standards, the EMC requirements must be part of the product definition followed by target reductions for EMI emissions and susceptibility improvements during the circuit design, component selection and PCB layout phases.
Overview: 20 minutes − Introduction and Objectives − Model-Based Design Toolbox: Library blocks, FreeMASTER, and Bootloader. Hands-On Demo: 50 minutes − Motor Kit (Describe Freescale 3-Phase Motor Kit) − Convert simple model to run on Motor Kit with MBD Toolbox and use FreeMASTER.
19 lis 2017 · The scope of this workshop is to familiarize readers with 3-phase PMSM control theory, NXP’s Automotive microprocessors designed for industrial control and provide prototyping implementation examples with Model-Based Design Toolbox.
19 lut 2018 · In many commercial and industrial applications, quite a few electric motors are required, and it is often desirable to control some or all of the motors from a central location. The apparatus designed for this function is the motor control center (MCC).
Eaton’s motor control centers (MCCs) provide a convenient method for grouping motor control, as well as associated distribution equipment. MCCs may be applied on electrical systems up to 600 V, 50 or 60 Hz, having available fault currents of up to 100,000 A rms. Enclosure designs include NEMAT 1 Gasketed as well as NEMA 2, 12, 3R and 3R walk-in.
