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Projet voilier 4IRA1 Arnaud Vergnet Marino Benassai Bastien Picco Yohan Simard
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projet_voilier/MDK-ARM/DebugConfig/NUCLEO-F103RB_STM32F103RB_1...

NUCLEO-F103RB_STM32F103RB_1.0.0.dbgconf 6.7KB
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  1. // <<< Use Configuration Wizard in Context Menu >>>

  2. // <h> Debug MCU Configuration

  3. //   <o0.0>    DBG_SLEEP

  4. // <i> Debug Sleep Mode

  5. // <i> 0: (FCLK=On, HCLK=Off) FCLK is clocked by the system clock as previously configured by the software while HCLK is disabled

  6. // <i> 1: (FCLK=On, HCLK=On) HCLK is fed by the same clock that is provided to FCLK

  7. //   <o0.1>    DBG_STOP

  8. // <i> Debug Stop Mode

  9. // <i> 0: (FCLK=Off, HCLK=Off) Clock controller disables all clocks

  10. // <i> 1: (FCLK=On, HCLK=On) FCLK and HCLK are provided by the internal RC oscillator which remains active

  11. //   <o0.2>    DBG_STANDBY

  12. // <i> Debug Standby Mode

  13. // <i> 0: (FCLK=Off, HCLK=Off) The whole digital part is unpowered.

  14. // <i> 1: (FCLK=On, HCLK=On) Digital part is powered and FCLK and HCLK are provided by the internal RC oscillator which remains active

  15. //   <o0.8>    DBG_IWDG_STOP

  16. // <i> Debug independent watchdog stopped when core is halted

  17. // <i> 0: The watchdog counter clock continues even if the core is halted

  18. // <i> 1: The watchdog counter clock is stopped when the core is halted

  19. //   <o0.9>    DBG_WWDG_STOP

  20. // <i> Debug window watchdog stopped when core is halted

  21. // <i> 0: The window watchdog counter clock continues even if the core is halted

  22. // <i> 1: The window watchdog counter clock is stopped when the core is halted

  23. //   <o0.10>   DBG_TIM1_STOP

  24. // <i> Timer 1 counter stopped when core is halted

  25. // <i> 0: The clock of the involved Timer Counter is fed even if the core is halted

  26. // <i> 1: The clock of the involved Timer counter is stopped when the core is halted

  27. //   <o0.11>   DBG_TIM2_STOP

  28. // <i> Timer 2 counter stopped when core is halted

  29. // <i> 0: The clock of the involved Timer Counter is fed even if the core is halted

  30. // <i> 1: The clock of the involved Timer counter is stopped when the core is halted

  31. //   <o0.12>   DBG_TIM3_STOP

  32. // <i> Timer 3 counter stopped when core is halted

  33. // <i> 0: The clock of the involved Timer Counter is fed even if the core is halted

  34. // <i> 1: The clock of the involved Timer counter is stopped when the core is halted

  35. //   <o0.13>   DBG_TIM4_STOP

  36. // <i> Timer 4 counter stopped when core is halted

  37. // <i> 0: The clock of the involved Timer Counter is fed even if the core is halted

  38. // <i> 1: The clock of the involved Timer counter is stopped when the core is halted

  39. //   <o0.14>   DBG_CAN1_STOP

  40. // <i> Debug CAN1 stopped when Core is halted

  41. // <i> 0: Same behavior as in normal mode

  42. // <i> 1: CAN1 receive registers are frozen

  43. //   <o0.15>   DBG_I2C1_SMBUS_TIMEOUT

  44. // <i> I2C1 SMBUS timeout mode stopped when Core is halted

  45. // <i> 0: Same behavior as in normal mode

  46. // <i> 1: The SMBUS timeout is frozen

  47. //   <o0.16>   DBG_I2C2_SMBUS_TIMEOUT

  48. // <i> I2C2 SMBUS timeout mode stopped when Core is halted

  49. // <i> 0: Same behavior as in normal mode

  50. // <i> 1: The SMBUS timeout is frozen

  51. //   <o0.17>   DBG_TIM8_STOP

  52. // <i> Timer 8 counter stopped when core is halted

  53. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  54. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  55. //   <o0.18>   DBG_TIM5_STOP

  56. // <i> Timer 5 counter stopped when core is halted

  57. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  58. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  59. //   <o0.19>   DBG_TIM6_STOP

  60. // <i> Timer 6 counter stopped when core is halted

  61. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  62. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  63. //   <o0.20>   DBG_TIM7_STOP

  64. // <i> Timer 7 counter stopped when core is halted

  65. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  66. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  67. //   <o0.21>   DBG_CAN2_STOP

  68. // <i> Debug CAN2 stopped when Core is halted

  69. // <i> 0: Same behavior as in normal mode

  70. // <i> 1: CAN2 receive registers are frozen

  71. //   <o0.25>   DBG_TIM12_STOP

  72. // <i> Timer 12 counter stopped when core is halted

  73. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  74. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  75. //   <o0.26>   DBG_TIM13_STOP

  76. // <i> Timer 13 counter stopped when core is halted

  77. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  78. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  79. //   <o0.27>   DBG_TIM14_STOP

  80. // <i> Timer 14 counter stopped when core is halted

  81. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  82. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  83. //   <o0.28>   DBG_TIM9_STOP

  84. // <i> Timer 9 counter stopped when core is halted

  85. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  86. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  87. //   <o0.29>   DBG_TIM10_STOP

  88. // <i> Timer 10 counter stopped when core is halted

  89. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  90. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  91. //   <o0.30>   DBG_TIM11_STOP

  92. // <i> Timer 11 counter stopped when core is halted

  93. // <i> 0: The clock of the involved timer counter is fed even if the core is halted, and the outputs behave normally.

  94. // <i> 1: The clock of the involved timer counter is stopped when the core is halted, and the outputs are disabled (as if there were an emergency stop in response to a break event).

  95. // </h>

  96. DbgMCU_CR = 0x00000007;

  97. // <<< end of configuration section >>>