embedded world: MCU and sub-GHz radio on IEEE 802.15.4 module

Posted By : Mick Elliott
embedded world: MCU and sub-GHz radio on IEEE 802.15.4 module

An IEEE 802.15.4-compliant module that combines an ultra-low-power microcontroller (MCU) with a sub-GHz radio was unveiled this morning (February 26) at embedded world in Nuremberg. It accelerates time to market and provides long-lasting battery life in wireless-networked sensors.

At half the size of the next smallest module on the market, the SAM R30 module meets the needs of space-conscious designs such as home automation sensors and controls.

Based on IEEE 802.15.4, the SAM R30 module supports proprietary networks that can be easily customised and configured. This is ideal for applications where interoperability is not desired due to their inherent vulnerability to remote attacks, such as alarm systems, building automation, smart cities and industrial sensor networks.

A key advantage of an IEEE 802.15.4-based network is that member devices can sleep for extended periods of time and remain part of the network. The SAM R30 module features ultra-low-power sleep modes, with wake from General-Purpose Input/Output (GPIO) or its built-in Real-Time Clock (RTC) while consuming approximately 800 nA. Devices can sleep for years, only waking as needed to transmit data.

Compact sensor designs can significantly reduce installation components and simplify device deployment. Applications often rely on simple double-sided tape for mounting, which makes decreasing the size of the sensor a priority.

The SAM R30 module measures just 12.7 x 11 mm and includes the necessary features to drive any remote connected sensor, thereby eliminating the need for a separate MCU in the design.

The device also offers up to 256 kilobytes (KB) of Flash and 40 KB of RAM, as well as serial data interfaces, USB, and digital and analogue I/O for advanced sensor development.

Operating in the sub-GHz RF spectrum, the SAM R30 module delivers two times the connectivity range and better propagation through walls and floors than similarly powered devices using the 2.4 GHz frequency band.

This robustness is critical in applications such as leak detection, where the sensor may be buried deep in a remote cabinet, or for pool and spa controllers, which require reliable sub-GHz solutions that can communicate through exterior walls.

The SAM R30 module is certified with the Federal Communications Commission (FCC), Industry Canada (IC) and Radio Equipment Directive (RED), enabling designers to reduce time to market and RF testing certification costs.

Microchip provides developers with the flexibility to implement a proprietary point-to-point, star or self-healing mesh network configurations with the free MiWi protocol stack.

The SAM R30 module joins Microchip’s IEEE 802.15.4-compliant wireless portfolio. With devices that meet the unique needs of a variety of applications, developers can select a single-chip 32- or 48-pin SAM R30 System-in-Package (SiP) for flexible design layout or the certified SAM R30 module for fastest time to market.

 Developers can begin prototyping with the ATSAMR30M-XPRO Extension Development Board, supported by the Atmel ICE Debugger/Programmer (ATMEL-ICE) and the easy-to-use Atmel Studio 7 Integrated Development Environment with demo code examples supporting each network configuration.

The SAM R30 module (ATSAMR30M18) is available now.

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