米6体育平台手机版

SPRZ397K November 2012 – September 2024 TDA2EG-17 , TDA2HF , TDA2HG , TDA2HV , TDA2LF , TDA2SA , TDA2SG , TDA2SX

1
1Introduction
1. Related Documentation
2. Trademarks
3. Modules Impacted
2Silicon Advisories
1. Revisions SR 2.0, 1.1, 1.0 - Advisories List
2. i202
3. i378
4. i631
5. i694
6. i698
7. i699
8. i727
9. i729
10. i734
11. i767
12. i782
13. i783
14. i802
15. i803
16. i807
17. i808
18. i809
19. i810
20. i813
21. i814
22. i815
23. i818
24. i819
25. i820
26. i824
27. i826
28. i829
29. i834
30. i837
31. i840
32. i841
33. i842
34. i843
35. i847
36. i849
37. i852
38. i854
39. i855
40. i856
41. i859
42. i861
43. i862
44. i863
45. i868
46. i869
47. i870
48. i871
49. i872
50. i874
51. i875
52. i878
53. i879
54. i880
55. i882
56. i883
57. i884
58. i887
59. i889
60. i890
61. i893
62. i895
63. i896
64. i897
65. i898
66. i899
67. i900
68. i901
69. i903
70. i916
71. i927
72. i929
73. i930
74. i932
75. i933
76. i936
77. i940
78. i2446
3Silicon Limitations
1. Revisions SR 2.0, 1.1, 1.0 - Limitations List
2. i596
3. i641
4. i833
5. i838
6. i844
7. i845
8. i848
9. i850
10. i851
11. i853
12. i857
13. i858
14. i876
15. i877
16. i892
17. i909
4Silicon Cautions
1. Revisions SR 2.0, 1.1, 1.0 - Cautions List
2. i781
3. 4.1 106
4. i827
5. i832
6. i836
7. i839
8. i864
9. i885
10. i886
11. i912
12. i926
13. i931
14. i935
5Revision History

i875

Power-on-Reset (PORz) Warm Boot Hang

CRITICALITY

High

DESCRIPTION

Following a warm Power-on-Reset (PORz) event, in which the supplies to the SoC remain ON throughout the assertion of PORz, the boot process may hang if the SoC is within a narrow temperature range.

The sensitive temperature range can be different on each device, is typically ~5^oC wide, and typically occurs below 25^oC.

The boot issue occurs only when the PORz signal is asserted to the SoC without turning-off the supplies to the SoC. No issue is observed in normal cold-boot operation in which the SoC boots up from a full power-off condition.

This erratum does not occur in typical use case scenarios. The boot hang may occur only if the PORz event is generated as a consequence of some other issue (e.g., run-time reset from an external MCU, or an SoC watchdog timer expiration resulting in PORz assertion) while the SoC temperature is within a narrow range.

The issue results from improper power sequencing to an internal SRAM that is accessed during execution of the early stages of the boot process. During assertion of PORz, the SoC's on-chip LDO regulator supplying the SRAM tri-states its output, thus allowing internal supplies to the SRAM to drift down uncontrolled. This can result in improper sequencing as the LDO reapplies power to the SRAM upon de-assertion of PORz before internal supplies to the SRAM have fully ramped down. This situation can result in incorrect accesses to the SRAM during boot, causing the boot process to halt.

WORKAROUND

A board level workaround requires adding a 220 Ohm (+/- 5%) resistor onto the SRAM LDO supply (Cap_vddram_mpu1, ball K16 on the SoC package with ABC designator (that is, the 23 mm package)), Cap_vddram_mpu1, ball F15 on package with AAS designator (that is, the 17 mm package)). This resistor provides a controlled discharge path for the charge contained within the external 1µF LDO capacitor during the reset operation. The workaround effectiveness assumes that the active duration of the PORz signal is a typical 3.4 ms or greater.

In systems with an MCU present, a second workaround technique can be utilized. The MCU performs a handshake with the device following a warm PORz to ensure that the device is responsive after the reset. On the occasion a hang occurs, the MCU should assert PORz low for 200 ms. This eliminates the need for an external 220 Ohm resistor.

REVISIONS IMPACTED

SR 1.1, 1.0

TDA2x: 1.1, 1.0

DRA75x, DRA74x: 1.1, 1.0

AM572x: 1.1