RM0316 Datasheet, PDF(233/1141 Page) STMicroelectronics – This reference manual targets application developers

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RM0316 Datasheet, PDF (233/1141 Pages) STMicroelectronics – This reference manual targets application developers

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RM0316

General-purpose I/Os (GPIO)

11.3.6

11.3.7

11.3.8

Writing any bit to 0 in GPIOx_BSRR does not have any effect on the corresponding bit in

GPIOx_ODR. If there is an attempt to both set and reset a bit in GPIOx_BSRR, the set

action takes priority.

Using the GPIOx_BSRR register to change the values of individual bits in GPIOx_ODR is a

âone-shotâ effect that does not lock the GPIOx_ODR bits. The GPIOx_ODR bits can always

be accessed directly. The GPIOx_BSRR register provides a way of performing atomic

bitwise handling.

There is no need for the software to disable interrupts when programming the GPIOx_ODR

at bit level: it is possible to modify one or more bits in a single atomic AHB write access.

GPIO locking mechanism

It is possible to freeze the GPIO control registers by applying a specific write sequence to

the GPIOx_LCKR register. The frozen registers are GPIOx_MODER, GPIOx_OTYPER,

GPIOx_OSPEEDR, GPIOx_PUPDR, GPIOx_AFRL and GPIOx_AFRH.

To write the GPIOx_LCKR register, a specific write / read sequence has to be applied. When

the right LOCK sequence is applied to bit 16 in this register, the value of LCKR[15:0] is used

to lock the configuration of the I/Os (during the write sequence the LCKR[15:0] value must

be the same). When the LOCK sequence has been applied to a port bit, the value of the port

bit can no longer be modified until the next reset. Each GPIOx_LCKR bit freezes the

corresponding bit in the control registers (GPIOx_MODER, GPIOx_OTYPER,

GPIOx_OSPEEDR, GPIOx_PUPDR, GPIOx_AFRL and GPIOx_AFRH.

The LOCK sequence (refer to Section 11.4.8: GPIO port configuration lock register

(GPIOx_LCKR)) can only be performed using a word (32-bit long) access to the

GPIOx_LCKR register due to the fact that GPIOx_LCKR bit 16 has to be set at the same

time as the [15:0] bits.

For more details please refer to LCKR register description in Section 11.4.8: GPIO port

configuration lock register (GPIOx_LCKR).

I/O alternate function input/output

Two registers are provided to select one of the alternate function inputs/outputs available for

each I/O. With these registers, you can connect an alternate function to some other pin as

required by your application.

This means that a number of possible peripheral functions are multiplexed on each GPIO

using the GPIOx_AFRL and GPIOx_AFRH alternate function registers. The application can

thus select any one of the possible functions for each I/O. The AF selection signal being

common to the alternate function input and alternate function output, a single channel is

selected for the alternate function input/output of a given I/O.

To know which functions are multiplexed on each GPIO pin, refer to the device datasheet.

External interrupt/wakeup lines

All ports have external interrupt capability. To use external interrupt lines, the port must be

configured in input mode.Section 14.2: Extended interrupts and events controller (EXTI) and

toSection 14.2.3: Wakeup event management.

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