SPRUJ26A September 2021 – April 2024
- 1
- Abstract
- Trademarks
- 1Introduction
- 2Motor Control Theory
-
3Running the Universal Lab on TI Hardware Kits
- 3.1 Supported TI Motor Evaluation Kits
- 3.2
Hardware Board Setup
- 3.2.1 LAUNCHXL-F280025C Setup
- 3.2.2 LAUNCHXL-F280039C Setup
- 3.2.3 LAUNCHXL-F2800137 Setup
- 3.2.4 TMDSCNCD280025C Setup
- 3.2.5 TMDSCNCD280039C Setup
- 3.2.6 TMDSCNCD2800137 Setup
- 3.2.7 TMDSADAP180TO100 Setup
- 3.2.8 DRV8329AEVM Setup
- 3.2.9 BOOSTXL-DRV8323RH Setup
- 3.2.10 BOOSTXL-DRV8323RS Setup
- 3.2.11 DRV8353RS-EVM Setup
- 3.2.12 BOOSTXL-3PHGANINV Setup
- 3.2.13 DRV8316REVM Setup
- 3.2.14 TMDSHVMTRINSPIN Setup
- 34
- 35
- 3.3 Lab Software Implementation
- 3.4 Monitoring Feedback or Control Variables
- 3.5 Running the Project Incrementally Using Different Build Levels
- 4Building a Custom Board
- A Appendix A. Motor Control Parameters
- References
- Revision History
3.2.11 DRV8353RS-EVM Setup
DRV8353RS-EVM is a 15A, three-phase brushless DC drive stage based on the DRV8353RS gate driver and CSD19532Q5B NexFETTM power blocks. The module has an individual DC bus and three-phase voltage sensing as well as three low-side current shunt amplifiers, making this board for BLDC/PMSM control with C2000 LaunchPad development kits suitable for use with the sensorless InstaSPIN-FOC algorithm. The drive stage is fully protected with short circuit, thermal, shoot-through, and under voltage protection and easily configurable via the device's SPI registers interfacing with C2000 MCUs.
- The DRV8353Rx-EVM Design Files are on the DRV8353RS-EVM page within ti.com.
- For more details about the DRV8353RS-EVM, see the User's Guide for the EVM.
- Make sure that the following
items are completed as described below, and then connect the DRV8353RS-EVM to site 1 (J1/J3 and J4/J2) of the LAUNCHXL-F280025C as shown in Figure 3-13.
- The DRV8353RS-EVM connects on the bottom of the launchpad, so it is necessary to use male to male adapters to connect the headers on the DRV8353RS-EVM to the LAUNCHXL-F280025C, LAUNCHXL-F280039C, or LAUNCHXL-F2800137 headers. The male adapter pins corresponding to pins J1-17 and J1-19 of the DRV8353RS-EVM need to be disconnected from the LAUNCHXL-F280025C, LAUNCHXL-F280039C, or LAUNCHXL-F2800137. This can be accomplished by bending these pins 90 degrees.
- Do not connect J3-29 and J3-30 of the LAUNCHXL-F280025C, LAUNCHXL-F280039C, or LAUNCHXL-F2800137 to the DRV8353RS-EVM as shown in Figure 3-13.
- Use a jumper wire to connect J2-19 to J2-12 of LAUNCHXL-F280025C andLAUNCHXL-F280039C or J2-13 to J2-12 of LAUNCHXL-F2800137 to make proper connection of the C2000's SPI-STE to the DRVx device as shown in Figure 3-13.
- If using the DAC128S085EVM board, bend J5-42 of the LAUNCHXL-F280025C, LAUNCHXL-F280039C, or LAUNCHXL-F2800137 with 90 degrees to avoid connecting that pin to the DAC128S085EVM board. This EVM board is only used for debugging purposes to monitor various software variables.
- Connect the motor, encoder, and Hall sensors to the DRV8353RS-EVM and the LAUNCHXL-F280025C, LAUNCHXL-F280039C, or LAUNCHXL-F2800137 as described in Table 3-2 and shown in Figure 3-13.
- Connect a supply voltage ranging from 9 to 54 V from a battery or a DC voltage source to the voltage supply pins. Power should only be applied when instructed to do so in Section 3.5, keep disconnected otherwise.
Figure 3-13 LAUNCHXL-F280025C/F280039C/F2800137 Connected to the DRV8353RS-EVM and
DAC128S085EVM