SWRZ097D Errata

SWRZ097D April 2020 – November 2022 AWR6843

1Introduction
2Device Nomenclature
3Device Markings
4Usage Notes
1. 4.1 MSS: SPI Speed in 3-Wire Mode Usage Note
5Advisory to Silicon Variant / Revision Map
6Known Design Exceptions to Functional Specifications
1. MSS#25
2. MSS#26
3. MSS#27
4. MSS#28
5. MSS#29
6. MSS#30
7. MSS#31
8. MSS#32
9. MSS#33
10. MSS#34
11. MSS#36
12. MSS#37B
13. MSS#38A
14. MSS#39
15. MSS#40
16. MSS#41
17. MSS#42A
18. MSS#43A
19. MSS#44A
20. MSS#45
21. 6.1 MSS#50
22. 6.2 MSS#51
23. ANA#11B
24. 6.3 ANA#12A
25. ANA#13B
26. ANA#14
27. ANA#15
28. ANA#16
29. ANA#17A
30. ANA#18B
31. ANA#19
32. ANA#20
33. ANA#21
34. ANA#22A
35. ANA#27A
7Trademarks
1. Revision History

MSS#41

Issuing WARM_RESET can Cause Bootloader Failure Which Results in Failure to Load the Application from Serial Flash

Revision(s) Affected:

AWR6843 ES2.0

Description:

WARM_RESET issued by application software (via register write), internal watchdog trigger, or external pin invocation can cause bootloader failure. This results in failure to load the application from serial flash

Issuing WARM_RESET can Cause Bootloader Failure Which Results in Failure to Load the Application From Serial Flash
Occurrence of WARM_RESET resets all configuration registers to default pre boot ROM values.
Change in register values can affect settings of APLL clock, resulting in the PLL clock leaking into digital subsystems of device. This can create an invalid state of a specific clock divider in the PLL clock domain which is subsequently not initialized by the WARM_RESET functionality.
Once this clock divider state is reached the subsequent bootloader execution hangs while trying to read the QSPI serial flash for program load (the QSPI is dependent upon the clock divider). This necessitates a power-cycle or nRESET for a successful recovery.

Workaround(s):

Avoid WARM_RESET. Use an external nRESET to initiate device reset with either an external watchdog or PMIC initiated reset sequence.