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Embed Drone Control Series

Playlist on Altair Embed-Drone control

Training Materials, Tutorials

Altair Embed - Salient PM Motor Control Series

Playlist on Altair Embed Salient motor control

Training Materials, Tutorials

Introduction to Humanetics FE Dummy Models

An introductory webinar to Humanetics Finite Element (FE) Dummy Models, available through the Altair Partner Alliance. FE Dummy Models is a large suite of highly detailed and validated finite element crash dummy models to virtually simulate the behavior of the Anthropomorphic Test Dummies used in crash testing to evaluate the human injuries. Finite Element Analysis (FEA) has been the trend in virtual crash design over the last two decades. The predictive capabilities of FEA allow engineers to fully analyze a crash event in a virtual environment. This potentially saves significant costs by better understanding vehicle and restraint performance upfront, and therefore limiting the number of physical tests that need to be executed and contributing significantly to the improvement of safety in the vehicles. Since 1995, Humanetics has developed a large suite of highly detailed and validated finite element crash dummy models to compliment physical product testing; these models are available in the codes most commonly used for crash simulation, including Altair’s RADIOSS.

Webinars

Forecast Your Software Licensing Future with Altair SAO Predict

Altair SAO enables you to visualize and analyze global software inventories and utilization rates across facilities, divisions, departments, and users. With SAO, it’s easy to pinpoint underutilized assets for better business planning and forecasting. Because we have deep domain expertise in not only HPC but also business analytics and software licensing systems, Altair is uniquely qualified to offer powerful SAO solutions tailored to the individual requirements of each organization. The Altair SAO Predict module is a “what-if” simulator — an entirely new approach to exploring configuration alternatives using a virtual license manager and the data generated by SAO. In this webinar, SAO expert Alhad Joshi, Altair's Vice President of Enterprise Analytics Solutions, showcases the benefits of using SAO and SAO Predict in a global organization.

Webinars

Altair Embed - Unit Delay, Pulse Counter, and Discrete Integrator

Use of the Unit Delay, modeling a pulse counter, and modeling a discrete backwards rectangular integrator.

Quick Start

Altair Embed - Discrete Reset Integrator, Merge, & CrossDetect Blocks

Understanding the Merge and CrossDetect blocks, adding an Embed model to the Embed MenuBar, modeling a discrete reset integrator.

Quick Start

Altair Embed - Fixed Point - Fundamentals Part 1

Description and use of fixed point blocksets, block properties, blockset configuration tool and displaying fixed point overflow messages and watermarks.

Quick Start

Altair Embed - Fixed Point - Fundamentals Part 2

Application of fixed point autoscale feature and attributes of automatically generated fixed point C-code

Quick Start

Altair Embed - Fixed Point - Filters

Use of the transfer function block and filter design option to design, discretize and implement a second order low pass filter. Adjusting the discrete stepsize and fixed point format for acceptable performance are covered.

Quick Start

OptiStruct – Nonlinear Axisymmetric Analysis

Nonlinear axisymmetric analysis with OptiStruct.

Tips & Tricks

Altair Embed - Controlling LEDs - Basics

Blink the red LED on a Texas Instruments F28069M LaunchPad board at 0.5Hz. The model is expanded to blink the red and blue LEDs alternately at 0.5 Hz and then at 10Hz.

Quick Start

Altair Embed - Controlling LEDs - Frequency Controlled

Example of host-to-target communication to blink the red LED on the target Texas Instrument F28069M LaunchPad Development Kit using an Embed slider block.

Quick Start

Altair Embed - Controlling LEDs - Frequency Controlled With "On Time" Measurement

Host-to/from-target communication to blink the red LED on the Target Texas Instrument F28069M LaunchPad Development Kit

Quick Start

Altair Embed - Compound Blocks - Basics

Create compound blocks to add levels to your model; navigate through your model; add/remove compound block connector pins; use compound block dialog constants and dialog windows; access and use built in variables

Quick Start

Altair Embed - Compound Blocks - Advanced

Discussion of two compound block features; Enabled Execution and Local Time Step. Additionally, the Local Time Step feature is applied to implement the block diagram equivalent of a "For" loop to iteratively solve a nonlinear implicit equation.

Quick Start

Altair Embed - Oscilloscope Display Using Monitor Buffer

High speed data collection using the EMBED Monitor Buffer Read and Write blocks, using the plot block to display Monitor Buffer data, displaying the % CPU usage using the Target Interface Block, and controlling the Target update time.

Quick Start

Altair Embed - Plot & Buffer Blocks

Creating vectors using the Embed “buffer” block, and configuring and using the “plot” block to display “buffer” data.

Quick Start

Altair Embed - Digital Power Buck Converter Control

Voltage Mode Control

Quick Start

Altair Embed - Texas Instruments CCS Software Installation

Step by Step instructions to install the Texas Instruments Code Composer Studio and Uniflash software on your computer.

Quick Start

Altair Embed - Furuta Inverted Pendulum Control

Apply the Model -Based Development process to the design, test, and HIL testing of a swing up and balance controller for the Furuta inverted rotary pendulum.

Quick Start

Altair Embed - Add a Model to the Embed Menubar

A binary hysteresis model is developed and simulated. The model is added to the Embed Menubar under a new menu named MyModels.

Quick Start

Altair Embed - Encoders

Configure and read a US Digital S4T 4 wire quadrature incremental encoder connected to a Texas Instrument F28069M LaunchPad board.

Quick Start

Materialise 3-matic: What’s New in Version 14

3-matic 14 introduces an improved Lattice module (formally known as Lightweights module), making your workflow more efficient thanks to a simplified UI/UX and new features in the Lattice module. Next to this, an enhanced Texturing Module to speed up mass editing of textures and benefit from the Texturing module’s powerful new editing tools, such as handling high numbers of UV regions by using the new generic UV map object in the Texturing and Lattice modules. And last but not least there are new import & export formats such as obj, 3mf, Catia6.

Webinars

Altair Inspire – Mesh Control

How to use the mesh control option in Altair Inspire.

Tips & Tricks

Simulation-Driven Design of Sheet-Metal Components

A good Design is not complete unless it meets desired performance and qualifies for efficient manufacturing. Design of sheet-metal components demand the following, From a Design perspective - if sheet-metal can be used for intended design, their sizing & shape, choice of material, weight and cost. From Manufacturability perspective - manufacturing feasibility of the designed shape, allowable thinning and wrinkling limits, addressing process constrains and importantly forming feasibility. Leveraging Simulation to drive the design as it unfolds at the concept generation stage, helps design engineers to accrue downstream benefits upfront.

Webinars

OptiStruct – Mode Tracking and Rotor Energy from Complex Eigen Value Analysis

OptiStruct – Mode Tracking and Rotor Energy from Complex Eigen Value Analysis

Tips & Tricks

OptiStruct – Key Performance Indicator Output

OptiStruct – Key Performance Indicator Output

Tips & Tricks

OptiStruct – Section Force Output from Pretension Bolt

OptiStruct – Section Force Output from Pretension Bolt

Tips & Tricks

Altair Embed - Digital Power - Simulation Blockset overview

Brief overview of the simulation blockset of the Digital Power Designer. In this video we look into and analyze a selection of bocks used for simulation (Compensators, PWM simulation, Voltage Mode Control simulation, Buck Converter).

Quick Start

Altair Embed - Digital Power - Coefficient Conversion

Select/tune the coefficients of a PID compensator. Users can calculate the digital coefficients from the analog component values or can tune the coefficients on the fly.

Quick Start

Altair Embed - Digital Power - Model Based Frequency Response Analysis

Details of the new block of the Digital Power Designer which lets user do a frequency response analysis.

Quick Start

Altair Embed - Digital Power - Code Generable

Simulate blocks of the Digital Power Designer which can be later used for code generation to download to a microcontroller. These blocks can be both simulated and used for code generation without any alterations.

Quick Start

Altair Embed - Buck Converters - Simulation

Simulation of the control system in order to analyze the response of the buck converter in voltage mode control. The microcontroller peripherals which are needed are simulated using the peripheral simulation blocks of the Digital Power Designer.

Quick Start

Altair Embed - Buck Converters - Compensator Coefficient Tuning

The buck converter is simulated with the coeffiecients of the compensator being the inputs. This gives us the opportunity to better tune the coefficients based on the response of the converter.

Quick Start

Altair Embed - Buck Converters - Open Loop

We take the first step to control the actual converter. We run a hardware in the loop diagram in open loop.

Quick Start

Altair Embed - Buck Converters - Closed Loop Model Design and Compilation

We look into the design of the model for closed loop control of the buck converter and look into the compilation of the model with just 3 clicks.

Quick Start

Altair Embed - Buck Converters - Closed Loop Debugging (HIL) and Flashing

Last part is running the closed loop control algorithm in hardware in the loop for validation. After validation we can revert to the design diagram and in just one step create a binary file that can be flashed to the controller.

Quick Start

Altair Embed - PMSM - Overview

Introduction of Prof. Duco Pulle and overview of the Permanent Magnet Synchronous Motor (PMSM) lab examples

Quick Start

PMSM - Open Loop Voltage Control Simulation

Short introduction to the theory of open loop voltage control of a PMSM

Quick Start

PMSM - Open Loop Voltage Control HIL

Hardware Used: TI LaunchXL-F28069M, BoostXL-DRV8301, Teknic M2310

Quick Start

PMSM - Open Loop Current Control Simulation

Short introduction to the theory of open loop current control of a PMSM

Quick Start

Altair Embed - PMSM - Open Loop Current Control HIL

Hardware Used: TI LaunchXL-F28069M, BoostXL-DRV8301, Teknic M2310

Quick Start

Altair Embed - PMSM - Field Oriented Control Simulation

Short introduction to the theory of closed loop field oriented control of a PMSM

Quick Start

Altair Embed - PMSM - Field Oriented Control HIL

Hardware Used: TI LaunchXL-F28069M, BoostXL-DRV8301, Teknic M2310

Quick Start

Altair Embed - PMSM - Sensorless Field Oriented Control HIL

Employing TI's FAST (Flux, Angle, Speed, and Torque) observer

Quick Start

Altair Embed - PMSM - Motor Identification for InstaSPIN FOC

InstaSPIN: Motor Control solution from Texas Instruments.

Quick Start

Altair Embed Arduino - Dimming an LED in less than one minute

Introduction to pulse width modulation (PWM) and its use for dimming an LED

Quick Start

Altair Embed Arduino - Dimming an LED

Introduction to PWM and its use for dimming an LED

Quick Start
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