97 lines
5.0 KiB
Plaintext
97 lines
5.0 KiB
Plaintext
// File: STM32L43x_44x_45x_46x.dbgconf
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// Version: 1.0.0
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// Note: refer to STM32L43xxx STM32L44xxx STM32L45xxx STM32L46xxx Reference manual (RM0394)
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// refer to STM32L431xx, STM32L432xx, STM32L433xx, STM32L442xx, STM32L443xx, STM32L451xx, STM32L452xx, STM32L462xx datasheets
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// <<< Use Configuration Wizard in Context Menu >>>
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// <h> Debug MCU configuration register (DBGMCU_CR)
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// <o0.2> DBG_STANDBY
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// <i> Debug Standby mode
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// <i> 0: (FCLK=Off, HCLK=Off) The whole digital part is unpowered.
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// <i> 1: (FCLK=On, HCLK=On) The digital part is not unpowered and FCLK and HCLK are provided by the internal RC oscillator which remains active
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// <o0.1> DBG_STOP
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// <i> Debug Stop mode
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// <i> 0: (FCLK=Off, HCLK=Off) In STOP mode, the clock controller disables all clocks (including HCLK and FCLK).
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// <i> 1: (FCLK=On, HCLK=On) When entering STOP mode, FCLK and HCLK are provided by the internal RC oscillator which remains active in STOP mode.
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// <o0.0> DBG_SLEEP
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// <i> Debug Sleep mode
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// <i> 0: (FCLK=On, HCLK=Off) In Sleep mode, FCLK is clocked by the system clock as previously configured by the software while HCLK is disabled.
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// <i> 1: (FCLK=On, HCLK=On) When entering Sleep mode, HCLK is fed by the same clock that is provided to FCLK (system clock as previously configured by the software).
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// </h>
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DbgMCU_CR = 0x00000007;
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// <h> Debug MCU APB1 freeze register1 (DBGMCU_APB1FZR1)
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// <o0.31> DBG_LPTIM1_STOP
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// <i> LPTIM1 counter stopped when core is halted
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// <i> 0: The counter clock of LPTIM1 is fed even if the core is halted
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// <i> 1: The counter clock of LPTIM1 is stopped when the core is halted
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// <o0.25> DBG_CAN_STOP
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// <i> bxCAN1 stopped when core is halted
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// <i> 0: Same behavior as in normal mode
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// <i> 1: The bxCAN1 receive registers are frozen
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// <o0.23> DBG_I2C3_STOP
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// <i> I2C3 SMBUS timeout counter stopped when core is halted
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// <i> 0: Same behavior as in normal mode
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// <i> 1: The I2C3 SMBus timeout is frozen
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// <o0.22> DBG_I2C2_STOP
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// <i> I2C2 SMBUS timeout counter stopped when core is halted
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// <i> 0: Same behavior as in normal mode
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// <i> 1: The I2C2 SMBus timeout is frozen
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// <o0.21> DBG_I2C1_STOP
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// <i> I2C1 SMBUS timeout counter stopped when core is halted
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// <i> 0: Same behavior as in normal mode
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// <i> 1: The I2C1 SMBus timeout is frozen
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// <o0.12> DBG_IWDG_STOP
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// <i> Independent watchdog counter stopped when core is halted
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// <i> 0: The independent watchdog counter clock continues even if the core is halted
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// <i> 1: The independent watchdog counter clock is stopped when the core is halted
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// <o0.11> DBG_WWDG_STOP
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// <i> Window watchdog counter stopped when core is halted
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// <i> 0: The window watchdog counter clock continues even if the core is halted
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// <i> 1: The window watchdog counter clock is stopped when the core is halted
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// <o0.10> DBG_RTC_STOP
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// <i> RTC counter stopped when core is halted
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// <i> 0: The clock of the RTC counter is fed even if the core is halted
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// <i> 1: The clock of the RTC counter is stopped when the core is halted
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// <o0.5> DBG_TIM7_STOP
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// <i> TIM7 counter stopped when core is halted
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// <i> 0: The counter clock of TIM7 is fed even if the core is halted
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// <i> 1: The counter clock of TIM7 is stopped when the core is halted
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// <o0.4> DBG_TIM6_STOP
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// <i> TIM6 counter stopped when core is halted
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// <i> 0: The counter clock of TIM6 is fed even if the core is halted
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// <i> 1: The counter clock of TIM6 is stopped when the core is halted
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// <o0.0> DBG_TIM2_STOP
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// <i> TIM2 counter stopped when core is halted
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// <i> 0: The counter clock of TIM2 is fed even if the core is halted
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// <i> 1: The counter clock of TIM2 is stopped when the core is halted
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// </h>
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DbgMCU_APB1_Fz1 = 0x00000000;
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// <h> Debug MCU APB1 freeze register 2 (DBGMCU_APB1FZR2)
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// <o0.5> DBG_LPTIM2_STOP
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// <i> LPTIM2 counter stopped when core is halted
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// <i> 0: The counter clock of LPTIM2 is fed even if the core is halted
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// <i> 1: The counter clock of LPTIM2 is stopped when the core is halted
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// </h>
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DbgMCU_APB1_Fz2 = 0x00000000;
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// <h> Debug MCU APB2 freeze register (DBGMCU_APB2FZR)
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// <o0.17> DBG_TIM16_STOP
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// <i> TIM16 counter stopped when core is halted
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// <i> 0: The clock of the TIM16 counter is fed even if the core is halted
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// <i> 1: The clock of the TIM16 counter is stopped when the core is halted
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// <o0.16> DBG_TIM15_STOP
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// <i> TIM15 counter stopped when core is halted
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// <i> 0: The clock of the TIM15 counter is fed even if the core is halted
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// <i> 1: The clock of the TIM15 counter is stopped when the core is halted
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// <o0.11> DBG_TIM1_STOP
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// <i> TIM1 counter stopped when core is halted
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// <i> 0: The clock of the TIM1 counter is fed even if the core is halted
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// <i> 1: The clock of the TIM1 counter is stopped when the core is halted
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// </h>
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DbgMCU_APB2_Fz = 0x00000000;
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// </h>
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// <<< end of configuration section >>> |