Datasheet
Introduction STM8L051F3
6/46 Doc ID 022985 Rev 1
1 Introduction
This document describes the features, pinout, mechanical data and ordering information for
the low density value line STM8L151F3 microcontroller with 8-Kbyte Flash memory density.
For more details on the whole STMicroelectronics ultra low power family please refer to
Section 2.2: Ultra low power continuum.
For detailed information on device operation and registers, refer to the reference manual
(RM0031).
For information on to the Flash program memory and data EEPROM, refer to the
programming manual (PM0054).
For information on the debug module and SWIM (single wire interface module), refer to the
STM8 SWIM communication protocol and debug module user manual (UM0470).
For information on the STM8 core, refer to the STM8 CPU programming manual (PM0044).
Low density value line devices provide the following benefits:
● Integrated system
– 8 Kbytes of low-density embedded Flash program memory
– 256 bytes of data EEPROM
– 1 Kbyte of RAM
– Internal high-speed and low-power low speed RC
– Embedded reset
● Ultra low power consumption
– 1 µA in Active-halt mode
– Clock gated system and optimized power management
– Capability to execute from RAM for Low power wait mode and Low power run
mode
● Advanced features
– Up to 16 MIPS at 16 MHz CPU clock frequency
– Direct memory access (DMA) for memory-to-memory or peripheral-to-memory
access
● Short development cycles
– Application scalability across a common family product architecture with
compatible pinout, memory map and modular peripherals
– Wide choice of development tools
These features make the value line STM8L05xxx ultra low power microcontroller family
suitable for a wide range of consumer and mass market applications.
Refer to Table 2: Low density value line STM8L05xxx low power device features and
peripheral counts and Section 3: Functional overview for an overview of the complete range
of peripherals proposed in this family.
Figure 1 shows the block diagram of the low density value line STM8L05xxx family.