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STMicroelectronics announces availability of STM32WL33 low-power, long-range wireless microcontrollers and dedicated ecosystem extensions

2024/12/10STMicroelectronics  Microcontrollers

Developers have access to device-specific software and middleware as well as NUCLEO boards within the extensive STM32 ecosystem

Geneva, Switzerland, November 25, 2024 -- STMicroelectronics has announced general availability of STM32WL33 wireless microcontrollers (MCUs), integrating its latest-generation sub-GHz long-range radio, Arm® Cortex®-M0+ core, tailored peripherals for smart-metering applications, and power-saving enhancements. The new MCUs greatly simplify the design of wireless solutions, reduce time-to-market, and prolong battery life.

These new IoT-focused devices are used in smart utility meters, alarm systems, smart-building equipment, asset-tracking, and proximity detection. Among many other applications in cutting-edge, smart use cases, they are ideal for monitoring and control in smart cities, smart agriculture including reporting soil condition and animal welfare, forest-fire detection, water metering, and leakage detection. 

Designers creating new products can take advantage of flexible options, ultra-low-power architecture, best-in-class radio efficiency, and innovative features to optimize the wireless range, simplify the design and extend battery lifetime.

A unique analog flow-sensor controller, LCSC, is integrated to streamline and optimize the design of water metering devices. The LCSC integrated circuitry can operate in conjunction with traditional coil-based mechanical meters, measuring fluid flow without any MCU intervention and providing a suitable anti-tampering feature. With these properties, the LCSC provides safety-proofing and can further enhance battery lifetime to more than 15 years while optimizing the integration and cost structure of water metering devices.

In addition, there is an ultra-low-power (4.2µA) receive-only wideband radio that listens for a wake-up signal while the main communication radio is turned off to save power. This always-on radio has negligible impact on battery consumption and provides a standby mode that can quickly react upon receiving a suitable RF wake-up signal. Application use cases include drive-by reading in metering devices or wake-on-service capability in battery-operated monitoring solutions to permit applying firmware upgrades. Moreover, the wake-up signal generated, for instance, by a fixed-position beaconing tag, can transport OOK-modulated information, providing a convenient solution for asset-tracking or location-tags in logistics and warehouse applications.

A comprehensive set of integrated programmable memories, peripherals and security options let developers build richly featured applications with minimal external circuitry. These include 256Kbyte Flash, 32Kbyte SRAM and flexible peripherals including a 16-segment LCD driver, 12-bit 1Msample/s analog-to-digital converter (ADC), analog comparator, digital-to-analog converter (DAC), multiple timers, and a real-time clock (RTC). Security services include secure-boot, secure firmware updates, 128-bit AES, and a random-number generator (RNG).

All the MCUs can operate in either of the 413-479 MHz or 826-958 MHz license-free bands. A special variant, the STM32WL33CCV6A, operates in the 169MHz band.
The device embeds two programmable power amplifiers allowing a selectable RF output power of either +14dBm or +20dBm, further optimizing power efficiency during active transmission time. In EU, Korea and Japan, legislation restricts the maximum to +14dBm for energy saving, while North America and Asia-Pacific allow +14dBm or +20dBm for longer range. With their dual power output, STM32WL33 wireless MCUs can be deployed worldwide and provide roaming capability for global tracking applications.

The widely configurable radio allows multi-protocol support and multi-modulation flexibility including 4-(G)FSK up to 600kbit/s, 2-(G)FSK, (G)MSK, DBPSK, DSSS, and ASK. A programmable and autonomous state-machine, the Radio Sequencer, automates common radio operations such as frequency-hopping low-duty-cycle operations, LBT, RX Sniff, auto-ack and many more saving MCU intervention and boosting radio efficiency.

With receive sensitivity of -132 dBm @300 bit/s 433 MHz OOK and -128 Bm @300 bit/s 868 MHz 2(G)FSK, the radio ensures robust communication over long distances. At +20 dBm output power and -128 dBm of sensitivity at 868 MHz, 300 bps GFSK makes it possible to achieve a link budget that supports a wireless communication range of over 1 Km.

There is also an IQ interface for custom modulation schemes and to further enhance reception sensitivity, enabling post-processing exploration with GNURadio or similar tools prior to embedding optimized protocol libraries. Supported standard protocols, besides the fully customizable proprietary options, includes wM-Bus, Mioty, Wize, Sigfox, 6LowPAN as well as Wi-SUN Home-Area-Networking (HAN).

This wireless SoC can combine seamlessly with ST’s MEMS inertial and environmental sensors, leveraging ML/AI algorithms and toolsets provided by ST. This facilitates development of applications that require positional and contextual awareness, as well as battery-operated remote monitoring and wireless sensors in industrial, smart-city or agricultural applications.

As an all-in-one system-on-chip (SoC), the STM32WL33 series connects developers with the extensive STM32 ecosystem. This now includes device-specific STM32CubeWL3 software and middleware, the NUCLEO-WL33CC1 board for 868/915MHz development, and NUCLEO-WL33CC2 for 433MHz. Also, dedicated matched filters (MLPF-WL-01D3/02D3/04D3) are now available for these MCUs, built with ST’s integrated passive device (IPD) technology, that deliver a simple and space-saving solution to optimize RF performance. In addition, a set of reference designs (STDES-WL3xxxx) saves R&D and simplifies RF design, further easing the path to market for new products. Pre-certified and fine-tuned for the STM32WL3 series, these reference designs cover several options including frequency band, RF power, MCU package, and two-layer or four-layer PCB.

The Wireless Studio Environment (STM32CubeWiSE), a graphical-UI based toolset, greatly boosts the learning curve and out-of-the-box experience. This includes the WiSE-RadioCodeGen, a code generator for RF-protocol automation that comes with the dedicated WL33 Radio Sequencer, and the WiSE-RadioExplorer. The explorer helps users make the most of the cutting-edge radio features and navigate the RF testing and certification process.

Pricing of the new devices starts from $2.03 for the STM32WL33K8V6 in a QFN32, for orders of 10,000 pieces. The NUCLEO-WL33CC1 and NUCLEO-WL33CC2 boards are available now from the eSTore and ST distributors for $50.00.


Further information about the reference designs is available at: https://www.st.com/resource/en/data_brief/stdes-wl3c2sll.pdf

* STM32 is a registered and/or unregistered trademark of STMicroelectronics International NV or its affiliates in the EU and/or elsewhere. In particular, STM32 is registered in the US Patent and Trademark Office.

About STMicroelectronics 
At ST, we are over 50,000 creators and makers of semiconductor technologies mastering the semiconductor supply chain with state-of-the-art manufacturing facilities. An integrated device manufacturer, we work with more than 200,000 customers and thousands of partners to design and build products, solutions, and ecosystems that address their challenges and opportunities, and the need to support a more sustainable world. Our technologies enable smarter mobility, more efficient power and energy management, and the wide-scale deployment of cloud-connected autonomous things. We are committed to achieving our goal to become carbon neutral on scope 1 and 2 and partially scope 3 by 2027. Further information can be found at www.st.com.


Companies Website:
http://www.st-japan.co.jp

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