STMicroelectronics STM32WL3x Low-Power Sub-GHz Wireless MCUs
STMicroelectronics STM32WL3x Low-Power Sub-GHz Wireless MCUs are designed to provide efficient long-range communication for IoT applications. Built on the Arm® Cortex®-M0+ core, these microcontrollers operate at up to 64MHz and integrate a sub-GHz dual radio, offering high flexibility and reduced bill of materials (BoM) costs. With up to 256K-bytes of flash memory and 32K-bytes of SRAM, the STM32WL3x line supports multiple modulation schemes, including 4-(G)FSK, (G)MSK, DBPSK, DSSS, OOK, and ASK. The main radio provides long-range connectivity with an RX sensitivity of up to -132dBm and a programmable TX power of up to +20dBm. Additionally, the dedicated wake-up radio ensures ultra-low power consumption, achieving down to 4.2μA in always-on mode. These features make the STM32WL3x MCUs ideal for applications such as smart homes, city infrastructure management, asset tracking, and various IoT devices.
Features
- Built on the Arm Cortex-M0+ core
- One single die in packages down to 5mm x 5mm integrating:
- 2x radios - sub-GHz multi-modulation radio and wide band wake-up radio
- LCD driver and LC sensor control for flow metering measurement
- Simple and ultra flexible platform with multiple modulation support
- 4-(G)FSK up to 600Kbps, 2-(G)FSK, (G)MSK, DBPSK, DSSS, OOK, and ASK
- IQ interface to develop user modulations for even more flexibility
- Flexible radio packet handler
- Main radio provides long-range connectivity with an RX sensitivity up to -132dBm and a programmable TX power up to +20dBm
- Frequency coverage
- 159MHz to 185MHz
- 413MHz to 479MHz
- 826MHz to 958MHz
- Low-power consumption radio down to 5.6mA (Rx) and 10mA (Tx at 10dBm full SoC current consumption)
- Additional dedicated wake-up on radio with 4.2µA always-on receiver for system wake-up
- Supports wide frequency bands from 100MHz to 2.4GHz
- Extends battery life by reducing the power consumption of wireless applications (low power features)
- Enables 10 years of battery life in many applications and the use of energy harvesting
- Reduces the R&D development effort by using one single platform to support many communication protocols (excluding LoRa)
- Optimizes the bill of materials (BOM), reducing the end device footprint and design complexity
Applications
- Asset tracking
- Wireless sensors
- Industrial monitoring and control
- Home energy management systems
- Smart home and alarm systems
- Building automation
- Heat cost allocators
- Remote metering
- City infrastructure management
- Various Internet of Things (IoT) devices
Block Diagram
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Published: 2024-10-21
| Updated: 2025-04-14