STM32W108HB STMicroelectronics, STM32W108HB Datasheet - Page 64
STM32W108HB
Manufacturer Part Number
STM32W108HB
Description
High-performance, IEEE 802.15.4 wireless system-on-chip with embedded Flash memory
Manufacturer
STMicroelectronics
Datasheet
1.STM32W108CC.pdf
(232 pages)
Specifications of STM32W108HB
Receive Current (w/ Cpu)
27 mA
Transmit Current (w/ Cpu, +3 Dbm Tx)
31 mA
Low Deep Sleep Current, With Retained Ram And Gpio
400 nA/800 nA with/without sleep timer
Standard Arm Debug Capabilities
Flash patch & breakpoint; data watchpoint & trace; instrumentation trace macrocell
Single Voltage Operation
2.1-3.6 V with internal 1.8 V and 1.25 V regulators
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General-purpose input/outputs
8.1.7
8.2
64/232
Wake monitoring
The GPIO_PxWAKE registers specify which GPIOs are monitored to wake the processor. If
a GPIO's wake enable bit is set in GPIO_PxWAKE, then a change in the logic value of that
GPIO causes the STM32W108 to wake from deep sleep. The logic values of all GPIOs are
captured by hardware upon entering sleep. If any GPIO's logic value changes while in sleep
and that GPIO's GPIO_PxWAKE bit is set, then the STM32W108 will wake from deep sleep.
(There is no mechanism for selecting a specific rising-edge, falling-edge, or level on a GPIO:
any change in logic value triggers a wake event.) Hardware records the fact that GPIO
activity caused a wake event, but not which specific GPIO was responsible. Instead,
software should read the state of the GPIOs on waking to determine the cause of the event.
The register GPIO_WAKEFILT contains bits to enable digital filtering of the external wakeup
event sources: the GPIO pins, SC1 activity, SC2 activity, and IRQD. The digital filter
operates by taking samples based on the (nominal) 10 kHz RC oscillator. If three samples in
a row all have the same logic value, and this sampled logic value is different from the logic
value seen upon entering sleep, the filter outputs a wakeup event.
In order to use GPIO pins to wake the STM32W108 from deep sleep, the GPIO_WAKE bit in
the WAKE_SEL register must be set. Waking up from GPIO activity does not work with pins
configured for analog mode since the digital logic input is always set to 1 when in analog
mode. Refer to
power management and sleep modes.
External interrupts
The STM32W108 can use up to four external interrupt sources (IRQA, IRQB, IRQC, and
IRQD), each with its own top level NVIC interrupt vector. Since these external interrupt
sources connect to the standard GPIO input path, an external interrupt pin may
simultaneously be used by a peripheral device or even configured as an output. Analog
mode is the only GPIO configuration that is not compatible with using a pin as an external
interrupt.
External interrupts have individual triggering and filtering options selected using the
registers GPIO_INTCFGA, GPIO_INTCFGB, GPIO_INTCFGC, and GPIO_INTCFGD. The
bit field GPIO_INTMOD of the GPIO_INTCFGx register enables IRQx's second level
interrupt and selects the triggering mode: 0 is disabled; 1 for rising edge; 2 for falling edge; 3
for both edges; 4 for active high level; 5 for active low level. The minimum width needed to
latch an unfiltered external interrupt in both level- and edge-triggered mode is 80 ns. With
the digital filter enabled (the GPIO_INTFILT bit in the GPIO_INTCFGx register is set), the
minimum width needed is 450 ns.
The register INT_GPIOFLAG is the second-level interrupt flag register that indicates
pending external interrupts. Writing 1 to a bit in the INT_GPIOFLAG register clears the flag
while writing 0 has no effect. If the interrupt is level-triggered, the flag bit is set again
immediately after being cleared if its input is still in the active state.
Two of the four external interrupts, IRQA and IRQB, have fixed pin assignments. The other
two external interrupts, IRQC and IRQD, can use any GPIO pin. The GPIO_IRQCSEL and
GPIO_IRQDSEL registers specify the GPIO pins assigned to IRQC and IRQD, respectively.
Table 25
GPIO pin used for the external interrupt.
shows how the GPIO_IRQCSEL and GPIO_IRQDSEL register values select the
Section 6: System modules on page 35
STM32W108HB STM32W108CC STM32W108CB STM32W108CZ
Doc ID 16252 Rev 13
for information on the STM32W108's
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