SLAZ094AB October   2012  – May 2021 CC430F5137

 

  1. 1Functional Advisories
  2. 2Preprogrammed Software Advisories
  3. 3Debug Only Advisories
  4. 4Fixed by Compiler Advisories
  5. 5Nomenclature, Package Symbolization, and Revision Identification
    1. 5.1 Device Nomenclature
    2. 5.2 Package Markings
      1.      RGZ48
    3. 5.3 Memory-Mapped Hardware Revision (TLV Structure)
  6. 6Advisory Descriptions
    1. 6.1  ADC24
    2. 6.2  ADC25
    3. 6.3  ADC27
    4. 6.4  ADC29
    5. 6.5  ADC42
    6. 6.6  ADC69
    7. 6.7  AES1
    8. 6.8  BSL7
    9. 6.9  COMP4
    10. 6.10 COMP10
    11. 6.11 CPU18
    12. 6.12 CPU20
    13. 6.13 CPU21
    14. 6.14 CPU22
    15. 6.15 CPU23
    16. 6.16 CPU24
    17. 6.17 CPU25
    18. 6.18 CPU26
    19. 6.19 CPU27
    20. 6.20 CPU28
    21. 6.21 CPU29
    22. 6.22 CPU30
    23. 6.23 CPU31
    24. 6.24 CPU32
    25. 6.25 CPU33
    26. 6.26 CPU34
    27. 6.27 CPU35
    28. 6.28 CPU39
    29. 6.29 CPU40
    30. 6.30 CPU46
    31. 6.31 CPU47
    32. 6.32 DMA4
    33. 6.33 DMA7
    34. 6.34 DMA8
    35. 6.35 DMA10
    36. 6.36 EEM8
    37. 6.37 EEM9
    38. 6.38 EEM11
    39. 6.39 EEM13
    40. 6.40 EEM14
    41. 6.41 EEM16
    42. 6.42 EEM17
    43. 6.43 EEM19
    44. 6.44 EEM23
    45. 6.45 FLASH29
    46. 6.46 FLASH31
    47. 6.47 FLASH37
    48. 6.48 JTAG20
    49. 6.49 JTAG26
    50. 6.50 JTAG27
    51. 6.51 MPY1
    52. 6.52 PMAP1
    53. 6.53 PMM8
    54. 6.54 PMM9
    55. 6.55 PMM10
    56. 6.56 PMM11
    57. 6.57 PMM12
    58. 6.58 PMM14
    59. 6.59 PMM15
    60. 6.60 PMM17
    61. 6.61 PMM18
    62. 6.62 PMM20
    63. 6.63 PORT15
    64. 6.64 PORT16
    65. 6.65 PORT17
    66. 6.66 PORT19
    67. 6.67 PORT21
    68. 6.68 RF1A1
    69. 6.69 RF1A2
    70. 6.70 RF1A3
    71. 6.71 RF1A5
    72. 6.72 RF1A6
    73. 6.73 RF1A8
    74. 6.74 RTC3
    75. 6.75 RTC6
    76. 6.76 SYS16
    77. 6.77 TAB23
    78. 6.78 UCS6
    79. 6.79 UCS7
    80. 6.80 UCS9
    81. 6.81 UCS10
    82. 6.82 UCS11
    83. 6.83 USCI26
    84. 6.84 USCI30
    85. 6.85 USCI31
    86. 6.86 USCI34
    87. 6.87 USCI35
    88. 6.88 USCI39
    89. 6.89 USCI40
    90. 6.90 WDG4
  7. 7Revision History

FLASH37

FLASH Module

Category

Functional

Function

Corrupted flash read when SVM low-side flag is triggered

Description

If the SVM low side is enabled, a change in the VCORE voltage level (an increase in the VCORE level) may cause the currently executed read operation from flash to be incorrect and may lead to unexpected code execution or incorrect data. This can happen under any one of the following conditions:

- When the VCORE is changed in application, the SVM low side is used to indicate if the core voltage has settled by using the SVMDLYIFG flag. The failure occurs only when a flash access is concurrent to the expiration of the settling time delay.

- Unexpected changes in the VCORE voltage level

For code examples and detailed guidance on the PMM operation and software APIs for PMM configuration see the driverlib APIs from 430Ware (MSP430Ware).

Workaround

- Execute the procedure to change the VCORE level from RAM.

or

- If executing from flash, follow the procedure below when increasing the VCORE level. Note: To apply this workaround, the SVM low-side comparator must operate in normal mode (SVMLFP = 0 in SVMLCTL).

// Set SVM highside to new level and check if a VCore increase is possible
  SVSMHCTL = SVMHE | SVSHE | (SVSMHRRL0 * level);
  // Wait until SVM highside is settled
  while ((PMMIFG & SVSMHDLYIFG) == 0);
  // Clear flag
  PMMIFG &= ~SVSMHDLYIFG;

  // Set also SVS highside to new level
  // Vcc is high enough for a Vcore increase
  SVSMHCTL |= (SVSHRVL0 * level);
  // Wait until SVM highside is settled
  while ((PMMIFG & SVSMHDLYIFG) == 0);
  // Clear flag
  PMMIFG &= ~SVSMHDLYIFG;
  
//**************flow change for errata workaround ************
  // Set VCore to new level
  PMMCTL0_L = PMMCOREV0 * level;


  // Set SVM, SVS low side to new level
  SVSMLCTL = SVMLE | (SVSMLRRL0 * level)| SVSLE | (SVSLRVL0 * level);
  // Wait until SVM, SVS low side is settled
  while ((PMMIFG & SVSMLDLYIFG) == 0);
  // Clear flag
  PMMIFG &= ~SVSMLDLYIFG;

//**************flow change for errata workaround ************