Use the c28x peripherals and Hardware Interrupt blocks to control the real-time execution of Simulink® function-call subsystems in an asynchronous fashion.
Use the C28035 LIN Receive, LIN Transmit, and PWM blocks to generate a pulse waveform.
Design a DC/DC Buck Converter controller with the Embedded Coder Support Package for TI® C2000 Processors and run it on the TI® F28377S Launchpad connected to the C2000 DPS BoosterPack. You
Create a real-time executable for a Texas Instruments F28335 embedded target. You will build upon the algorithm specified in the example
Use Embedded Coder Support Package for Texas Instruments C2000 processor for code verification and validation using PIL.
Perform parameter tuning and data logging with a Simulink® model running in External mode on the Texas Instruments™ C2000 targets. See Embedded Coder Support Package for Texas Instruments
Use the Control Law Accelerator (CLA) available on some of the TI Piccolo processors.
Use Embedded Coder™ Support Package for Texas Instruments C2000 Processors and Embedded Coder Support Package for Texas Instruments C2000 F28M3x Concerto Processors for real-time
Simulate a Permanent Magnet Synchronous Machine model from SimPowerSystems™ toolbox using C28x peripherals and DMC library blocks.
Use the IPC blocks to communicate between the two CPUs of Texas Instruments™ Delfino F2837xD using Simulink® models.
Control the speed of a three-phase Permanent Magnet Synchronous Motor in a closed-loop fashion via Field-Oriented Control (FOC)using the C28x peripherals and DMC library blocks.
Use the CAN Calibration Protocol (CCP) block to monitor model signals and tune parameter values in the application code running on the target hardware. You can use either External mode or a