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Functional overview STM32L15xCC STM32L15xRC STM32L15xUC STM32L15xVC

18/132 DocID022799 Rev 6

Owing to its embedded ARM core, the STM32L15xxC is compatible with all ARM tools and

software.

Nested vectored interrupt controller (NVIC)

The ultra-low-power STM32L15xxC embeds a nested vectored interrupt controller able to

handle up to 53 maskable interrupt channels (not including the 16 interrupt lines of ARM

Cortex-M3) and 16 priority levels.

 Closely coupled NVIC gives low-latency interrupt processing

 Interrupt entry vector table address passed directly to the core

 Closely coupled NVIC core interface

 Allows early processing of interrupts

 Processing of late arriving, higher-priority interrupts

 Support for tail-chaining

 Processor state automatically saved

 Interrupt entry restored on interrupt exit with no instruction overhead

This hardware block provides flexible interrupt management features with minimal interrupt

latency.

3.3 Reset and supply management

3.3.1 Power supply schemes

 V

= 1.65 to 3.6 V: external power supply for I/Os and the internal regulator. Provided

externally through V

pins.

 V

SSA

, V

DDA

= 1.65 to 3.6 V: external analog power supplies for ADC, reset blocks, RCs

and PLL (minimum voltage to be applied to V

DDA

is 1.8 V when the ADC is used). V

DDA

and V

SSA

must be connected to V

and V

, respectively.

3.3.2 Power supply supervisor

The device has an integrated ZEROPOWER power-on reset (POR)/power-down reset

(PDR) that can be coupled with a brownout reset (BOR) circuitry.

The device exists in two versions:

 The version with BOR activated at power-on operates between 1.8 V and 3.6 V.

 The other version without BOR operates between 1.65 V and 3.6 V.

After the V

threshold is reached (1.65 V or 1.8 V depending on the BOR which is active or

not at power-on), the option byte loading process starts, either to confirm or modify default

thresholds, or to disable the BOR permanently: in this case, the V

min value becomes

1.65 V (whatever the version, BOR active or not, at power-on).

When BOR is active at power-on, it ensures proper operation starting from 1.8 V whatever

the power ramp-up phase before it reaches 1.8 V. When BOR is not active at power-up, the

power ramp-up should guarantee that 1.65 V is reached on V

at least 1 ms after it exits

the POR area.