Raptor Rapid Control Prototyping: Difference between revisions

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Get your prototype up and running quickly with the Raptor tool suite. Utilizing the graphical programming environment of MATLAB/Simulink, developers can quickly and easily develop software using multiple block libraries with numerous interface functionalities and configurable I/O capabilities. Our tools allow you to automatically build, test, and integrate prototype models, as well as make real-time calibration changes, without manual programming.  
Get your prototype up and running quickly with the Raptor tool suite. Utilizing the graphical programming environment of MATLAB/Simulink, developers can quickly and easily develop software using multiple block libraries with numerous interface functionalities and configurable I/O capabilities. Our tools allow you to automatically build, test, and integrate prototype models, as well as make real-time calibration changes, without manual programming.  


*Intuitive software environment that lets you easily develop software using multiple block libraries with various interface functionalities.
*Single-click automated build & integration process


[[File:process.png]]
[[File:process.png]]

Revision as of 20:29, 14 June 2019

Take control of your system development from the start without paying $10,000s for generic rapid prototyping hardware. Our embedded Model-Based Development (eMBD) platform, Raptor™, makes developing custom control software that cleanly integrates onto ruggedized hardware quick, easy, and affordable. Raptor™ provides the development speed of Rapid Control Prototyping systems that you may already know, coupled with controller hardware that is a fraction of the price typical with these systems.

The Raptor tool chain matches industry-standard software tools with off-the-shelf controller products, allowing you develop control software for complex electromechanical systems. Developers can easily create, compile, build, and flash the model onto ruggedized, off-the-shelf hardware without the hassle of manual programming.


Rapid Prototype Development

Get your prototype up and running quickly with the Raptor tool suite. Utilizing the graphical programming environment of MATLAB/Simulink, developers can quickly and easily develop software using multiple block libraries with numerous interface functionalities and configurable I/O capabilities. Our tools allow you to automatically build, test, and integrate prototype models, as well as make real-time calibration changes, without manual programming.

  • Intuitive software environment that lets you easily develop software using multiple block libraries with various interface functionalities.
  • Single-click automated build & integration process

High Quality Controllers

Automatically integrate your controls software onto rugged, cost-efficient hardware built to endure the harshest of environments. New Eagle offers a variety of trusted ECUs that range in pin count, input, output, memory, and processor configuration, and are tailored to suit a variety of applications. With our ASIL capable, IP6k9k compliant controllers that can typically operate in temperatures ranging from -40C to +105C, our ECUs are built with the most rigid standards available. In addition, each Raptor enabled ECU ranges in pin count, I/O capabilities, and processor configuration to better suit a variety of applications while costing significantly less than typical prototyping hardware.


High Quality Displays


Scalable Prototype Systems

With our Raptor-enabled ECUs and displays costing roughly a small fraction that of generic rapid control prototyping hardware, engineers will save money throughout the development cycle. Not only can these ECUs be used during the initial prototyping stages, but these controllers are also scalable and intended for automotive mass-market production. Utilize the same hardware throughout the entire system lifecycle and avoid extra iterations cycles that are normally required for production hardware.


With fast development cycle times using model-based simulation, rapid-prototyping, controls development, and ruggedized, off-the-shelf hardware, developers can optimize their control system design in a cost efficient manner. Developers can deploy their prototype (or production) designs out to a fleet using Raptor ECUs, where this would be cost prohibitive with traditional rapid control prototyping hardware.