This application is controlled with a terminal interface using a serial over USB connection between the PC host and the EVM. Please connect a USB cable between the PC and the EVM/LP. A serial terminal application (like teraterm/ hyperterminal/ minicom) is then run on the host. To configure, select the serial port corresponding to the port emulated over USB by the EVM. The host serial port should be configured to 115200 baud, no parity, 1 stop bit and no flow control.

The BISS-C receiver firmware running on ICSS0-PRU1 provides a defined interface. The BISS-C diagnostic application interacts with the BISS-C receiver firmware interface. It then presents the user with menu options to select Data ID code. The application collects the data entered by the user and configures the relevant interface. Then via the BISS-C receiver interface, the command is triggered. Once the command completion is indicated by the interface, the status of the transaction is checked. If the Status indicates success, the result is presented to the user.

Channel Selection In Sysconfig

BiSS-C configuration seletion between Single/Multi channel

Important files and directory structure

Folder/Files	Description
${SDK_INSTALL_PATH}/examples/motor_control/bissc_diagnostic
bissc_diagnostic.c	BISS-C diagnostic application
${SDK_INSTALL_PATH}/source/motor_control/position_sense/bissc
firmware/	Folder containing BISS-C PRU firmware sources.
driver/	BISS-C diagnostic driver.

Supported Combinations

Parameter	Value
CPU + OS	r5fss0-0 freertos
ICSSG	ICSSG0
PRU	PRU1 (single channel, multi channel using single PRU)
PRU	PRU1, RTU-PRU1, TXPRU1 (multi channel using three PRUs - load share mode)
Toolchain	ti-arm-clang
Board	am243x-lp (2 channel and 1 channel examples)
Example folder	examples/motor_control/bissc_diagnostic

Steps to Run the Example

Hardware Prerequisites

Hardware Setup

Hardware Setup(Using Booster Pack & AM243x-LP)

Hardware Setup of Booster Pack + LP for BISS-C

Booster Pack Jumper Configuration

Designator	ON/OFF	Description
J11	OFF	VSENSE/ISENSE select
J13	OFF	VSENSE/ISENSE select
J17	Pin 1-2 Connected	SDFM Clock Feedback Select
J18/J19	J18 OFF & J19 ON	Axis 1: Encoder/Resolver Voltage Select
J20/J21	J20 ON & J21 OFF	Axis 2: Encoder/Resolver Voltage Select
J22	OFF	Axis 1: Manchester Encoding Select
J23	OFF	Axis 2: Manchester Encoding Select
J24	OFF	Axis 1: RS485/DSL MUX
J25	OFF	Axis 2: RS485/DSL MUX
J26	OFF	VSENSE/ISENSE Select
J27	ON	3WIRE/SDFM MUX
J28	OFF	3WIRE MUX

Build, load and run

When using CCS projects to build, import the CCS project and build it using the CCS project menu (see Using SDK with CCS Projects ).
When using makefiles to build, note the required combination and build using make command (see Using SDK with Makefiles )
Launch a CCS debug session and run the executable, see CCS Launch, Load and Run
Refer to UART terminal for user interface menu options.

Sample Output

Shown below is a sample output when the application is run:

BISS-C Sample Output

Test Case Description

#	Name	Description	Pass/fail Criteria
1	Data readout (absolute position data)	In this command we will receive: Absolute rotor position value, errors, and warnings	CRC success with ABS, E, W and CRC values printed in the terminal.
2	Control Communication	In this command we will receive: Absolute rotor position value, errors, and warnings, along with the result of the control communication command.	CRC success with ABS, E, W and CRC values of position data along with the control communication result printed in the terminal.

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