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1. About the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
2. Features of the Drive-on-Chip Design Example for Intel® MAX® 10 Devices
3. Getting Started with the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
4. Rebuilding the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
5. About the Scaling of Feedback Signals
6. Motor Control Software
7. Functional Description of the Drive-on-Chip Design Example
8. Achieving Timing Closure on a Motor Control Design
9. Design Security Recommendations
10. Reference Documents for the Drive-on-Chip Design Example
11. Document Revision History for AN 773: Drive-on-Chip Design Example for Intel® MAX® 10 Devices
3.1. Software Requirements for the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
3.2. Hardware Requirements for the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
3.3. Downloading and Installing the Design
3.4. Setting Up the Motor Control Board with your Development Board for the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
3.5. Importing the Drive-On-Chip Design Example Software Project
3.6. Configuring the FPGA Hardware for the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
3.7. Programming the Nios II Software to the Device for the Drive-On-Chip Design Example for Intel® MAX® 10 Devices
3.8. Applying Power to the Power Board
3.9. Debugging and Monitoring the Drive-On-Chip Design Example with System Console
3.10. System Console GUI Upper Pane for the Drive-On-Chip Design Example
3.11. System Console GUI Lower Pane for the Drive-On-Chip Design Example
3.12. Controlling the DC-DC Converter
3.13. Tuning the PI Controller Gains
3.14. Controlling the Speed and Position Demonstrations
3.15. Monitoring Performance
4.1. Changing the Intel® MAX® 10 ADC Thresholds or Conversion Sequence
4.2. Generating the Qsys System
4.3. Compiling the Hardware in the Intel Quartus Prime Software
4.4. Generating and Building the Nios II BSP for the Drive-On-Chip Design Example
4.5. Software Application Configuration Files
4.6. Compiling the Software Application for the Drive-On-Chip Design Example
4.7. Programming the Design into Flash Memory
7.1. Processor Subsystem
7.2. Six-channel PWM Interface
7.3. DC Link Monitor
7.4. Drive System Monitor
7.5. Quadrature Encoder Interface
7.6. Sigma-Delta ADC Interface for Drive Axes
7.7. Intel® MAX® 10 ADCs
7.8. ADC Threshold Sink
7.9. DC-DC Converter
7.10. Motor Control Modes
7.11. FOC Subsystem
7.12. DEKF Technique
7.13. Signals
7.14. Registers
7.11.1. DSP Builder for Intel FPGAs Model for the Drive-on-Chip Designs
7.11.2. Avalon Memory-Mapped Interface
7.11.3. About DSP Builder for Intel FPGAs
7.11.4. DSP Builder for Intel FPGAs Folding
7.11.5. DSP Builder for Intel FPGAs Model Resource Usage
7.11.6. DSP Builder for Intel FPGAs Design Guidelines
7.11.7. Generating VHDL for the DSP Builder Models for the Drive-on-Chip Designs
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9. Design Security Recommendations
Follow these recommendations if you use the Drive-on-Chip Design Example as the basis for a commercial product:
- Add more checks on current, voltage, and gain values in the design to ensure all the parameters are in the correct range.
- Analyze the security risk of incorrect use of the JTAG interface while implementing the design. Incorrect use of the JTAG interface can cause system malfunction and damage the power electronics, motors, or machinery that the design drives. It might even create a hazard to people working with the design.
- Ensure you follow guidelines for secure use of JTAG to protect the system from any unauthorized write or read accesses.