![]() You will see a list of Design Templates projects that you have loaded prior as well as various "Baseline Pinout Designs" that contain the pinout and settings for a variety of development kits. After entering the project name and folder on the first panel, the second panel will ask you to specify an empty project or project template. The second means to bring up the project template is through the New Project Wizard (File -> New Project Wizard). par file and Quartus will launch that project. In releases 16.0 or newer, you can simply double click on the. The combination of this information is what constitutes a. ![]() qar file) and metadata describing the project. par file which contains a compressed version of your design files (similar to a. The file you downloaded is of the form of a. Note: After downloading the design example, you must prepare the design template. ![]() Prepare the design template in the Quartus Prime software GUI (version 14.1 and later) Eliminates the need for an external clock signal as all MAX 10 devices have a unique internal oscillator which is incorporated in this design. Two modes of operation: continuous mode and step mode. This motor controller design offers the following advantages: - Two types of control for starting and stopping the motor and selecting forward or reverse rotation: manual control (through the user interface) or automatic control (through a microcontroller). The design uses a few switches and buttons on the demo board to serve as the user interface. The motor controller implemented in this design uses a MAX 10 device to govern (as you have predetermined) the performance and operation of a unipolar permanent magnet stepper motor. The motor's angular displacement can be controlled by simply switching these electromagnets on or off in a fixed pattern for the desired motion of the motor. When these solenoids, or electromagnets, are energized in sequence, the magneto motive force (MMF) developed in them interacts with the rotor and causes it to re-align to the magnetic field, thereby causing it to rotate in a clockwise or counterclockwise direction. Printers and plotters, disk drives, robots, CNC machines, and other precision machines are common examples where the stepper motor is used extensivelyĪ stepper motor's operation can be explained by considering a series of electromagnets arranged in a circle to encapsulate a rotor made up of a magnetic material.
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