SLVUBV6 April   2020  – MONTH 

 

  1. 1Introduction
    1. 1.1 Overview
    2. 1.2 Purpose and Scope
  2. 2Hardware and Software Overview
    1. 2.1 Hardware Connections Overview – DRV8300Dxxx-EVM + LAUNCHXL-F280049C
    2. 2.2 Faults, Indicators, and Jumper Settings
    3. 2.3 EVM Hardware Quick-Start
    4. 2.4 DRV8300 EVM GUI Software
  3. 3References

2.1 Hardware Connections Overview – DRV8300Dxxx-EVM + LAUNCHXL-F280049C

The following section describes the EVM hardware and connections to the external supply, hall sensors, PC via USB, and motor.

GUID-8FF0D183-3FE8-46F8-9659-7329B70635D6-low.pngFigure 2-1 EVM Board Overview
GUID-750E3E51-73FD-4B2B-92FB-67AECD8AA987-low.jpg Figure 2-2 DRV8300Dxxx-EVM Mating to LAUNCHXL-F280049C

The DRV8300Dxxx-EVM must plug into the lower LAUNCHXL-F280049C Launchpad headers as shown below.

GUID-E3EABD14-4E4C-4C2D-A01F-9F65849AD4DB-low.png Figure 2-3 PVDD Input (J4)
WARNING:

To minimize the risk of potential shock hazard and personal injury, remove all power connections and interfaces to the DRV8300Dxxx-EVM when not in use.

The DRV8300Dxxx-EVM is designed for an input supply from 6 VDC to 100 VDC and up to 25-A continuous drive current (software limited). The input connects to J4 with the noted polarity. PVDD_TP connects to the same node but must not be used for high current input. PVDD input is fused with a 30 A fuse and the input connector is rated for 32 A.

GUID-173EDBE8-D68A-4570-804B-6F3FEBB050B2-low.png Figure 2-4 Hall Sensor Input and Power Connections (J7)

Hall sensors are connected to J7 including hall power and GND. The 3.3 VDC supply to the Hall sensors is supplied from the 3.3 V LDO on the EVM. External hall power can be input through the HALL_EXT test point if a different supply or voltage level is desired. To use the included 3.3 V LDO to power the halls, connect J3 on the right side to pins 1:2 as shown. To use HALL_EXT, connect J3 on the left side to pins 2:3. To insert or remove wires/terminals on J7, use a flat blade screwdriver to push down the respective tab on top of the J7 connector.

GUID-D27C0AE6-0E31-4D22-BE97-545C23E67444-low.png Figure 2-5 Motor Phase Connector (J5)
WARNING:

Motor Phase connections must match the hall sensor connection sequence. For example, MOTA must match HALL_A, MOTB must match HALL_B, MOTC must match HALL_C. The phases must also be in sequential order; A, then B, then C.

If the motor phases do not match the hall sensors or the connections are made out of order, the motor will not spin smoothly and current consumption will increase.

The three phase inputs of the motor connect to MOTA/MOTB/MOTC through connector J5.