Design value based on motor control system model
It aims to help simplify the inherent difficulties and complexities encountered when designing control systems using traditional non-automation methods.
It provides designers with a visual design environment, allowing developers to use a single model for the entire system, enabling data analysis, model visualization, testing, validation, and final product deployment. Once the model is built and tested, accurate, real-time software is automatically generated, saving time and reducing total development costs compared to traditional manual coding. Model-based design with automatic code generation can also be used for rapid prototyping, further shortening the design cycle.
It provides a software reuse architecture that allows completed designs to be effectively scaled up or down according to the required application, thereby enabling reliable upgrades in a simpler and more cost-effective manner.
By reducing design time and providing a final design that is more accurate and closer to pre-design expectations in terms of performance, system functionality, features, and scheduling, valuable design resources are saved.
Advantages of motor control system model design
*Faster design adjustments to achieve the required performance, functionality, and capabilities;
*The design cycle is more predictable, and products are shipped faster;
*Reduce design, development, and deployment.
ADI has developed four basic types to integrate a variety of possible motor control architectures:
Zone 1
Configuration instructions:
*A controller based on a DC power rail;
*Low-side traffic detection (*Low-speed communication protocol – easy to isolate).
Typical application: Inverter.
Zone 2
Configuration instructions:
*A controller based on a DC power rail;
*Sensor/transformer-based phase current detection (>25A);
*Low-speed communication protocol – easy to isolate.
Typical applications: simple function servos and drives.
Zone 3
Configuration instructions:
* Ground-based controller and communication;
*Isolated control and feedback for better performance;
* Sensor/transformer-based phase current detection (>25A);
* High-speed communication protocol.
Typical applications: advanced function servos and drives.
Zone 4
Configuration instructions:
* Ground-based controller and communication;
*Isolated control and feedback for better performance;
* Shunt phase current detection
* High-speed communication protocol.
Typical applications:
* Advanced features: servos and drivers;
*High-end driver.
* Multi-axis servo design.
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