Our experienced engineers will jump start your project and help you to customize the driver or controller for your application.
You’ll receive the best knowledge we’ve built up over the years, at a fraction of the cost and time, and a secure path for further migration so you can focus on your application’s electronics.
The main controller used in the High Resolution Twin Controller, PIC 18F2520, has a rich set of commands that can solve most tasks needed to control the motor and position sensor.
Before you start programming your own controller, we can quickly and easily modify or add new command features to the controller. Any modifications can be made either as a firmware change, or as a part of a customized controller, with the interface you need.
This means you can focus on the application’s firmware and secure a path for future migrations.
Regardless of how you want to communicate with the PCBMotor – either through a high-level, PC software program, or directly to the controller – our engineers deliver the solution that fits your specific requirements.
Despite looking simple, the stator design is a bit more complex. Our automated design tools facilitate an in-depth, dynamic, finite element analysis for each individual design to ensure that the stator only supports the resonance frequency wanted.
This means we can quickly make the design needed for your project including prototypes.
The ultrasonic frequencies, from the stator, add an additional design dimension to the mechanical construction before it can deliver the desired output to your application.
You can also get a head start on your project schedule by using our design service to help customize your application’s rotor elements.
Need some design inspiration for your electronic movement application?
Browse around the design examples in our gallery…