Why connect to the cloud with the Atmel | SMART SAM W25?

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The “thing” of IoT does not have to necessarily be tiny. 

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The Atmel | SMART SAM W25 is, in fact, a module — a “SmartConnect Module.” As far as I am concerned, I like SmartConnect designation and I think it could be used to describe any IoT edge device. The device is “smart” as it includes a processing unit, which in this case is an ARM Cortex-M0-based SAMD21G, and “connect” reminds the Internet part of the IoT definition. Meanwhile, the ATWINC1500 SoC supports Wi-Fi 802.11 b/g/n allowing seamless connection to the cloud.

What should we expect from an IoT edge device? It should be characterized by both low cost and power! This IoT system is probably implemented multiple times, either in a factory (industrial) or in a house (home automation), and the cost should be as low as possible to enable large dissemination. I don’t know the SAMD21G ASP, but I notice that it’s based on the smallest MCU core of the ARM Cortex-M family, so the cost should be minimal (my guess). Atmel claims the W25 module to be “fully-integrated single-source MCU + IEEE 802.11 b/g/n Wi-Fi solution providing battery powered endpoints lasting years”… sounds like ultra low-power, doesn’t it?

The “thing” of IoT does not necessarily have to be tiny. We can see in the above example that interconnected things within the industrial world can be as large as these wind turbines (courtesy of GE). To maximize efficiency in power generation and distribution, the company has connected these edge devices to the cloud where the software analytics allow wind farm operators to optimize the performance of the turbines, based on environmental conditions. According with GE, “Raising the turbines’ efficiency can increase the wind farm’s annual energy output by up to 5%, which translates in a 20% increase in profitability.” Wind turbines are good for the planet as they allow avoiding burning fossil energy. IoT devices implementation allows wind farm operators to increase their profitability and to build sustainable business. In the end, thanks to Industrial Internet of Thing (IIoT), we all benefit from less air pollution and more affordable power!

The ATWINC1500 is a low-power Systems-on-Chip (SoC) that brings Wi-Fi connectivity to any embedded design. In the example above, this SoC is part of a certified module, the ATSAMW25, for embedded designers seeking to integrate Wi-Fi into their system. If we look at the key features list:

• IEEE 802.11 b/g/n (1×1) for up to 72 Mbps
• Integrated PA and T/R switch
• Superior sensitivity and range via advanced PHY signal processing
• Wi-Fi Direct, station mode and Soft-AP support
• Supports IEEE 802.11 WEP, WPA
• On-chip memory management engine to reduce host load
• 4MB internal Flash memory with OTA firmware upgrade
• SPI, UART and I2C as host interfaces
• TCP/IP protocol stack (client/server) sockets applications
• Network protocols (DHCP/DNS), including secure TLS stack
• WSC (wireless simple configuration WPS)
• Can operate completely host-less in most applications

We can notice that host interfaces allow direct connection to device I/Os and sensors through SPI, UART, I2C and ADC interfaces and can also operate completely host-less. A costly device is then removed from the BOM which can enable economic feasibility for an IoT, or IIoT edge device.

The low-power Wi-Fi certified module is currently employed in industrial systems supporting applications, such as transportation, aviation, healthcare, energy or lighting, as well as in IoT areas like home appliances and consumer electronics. For all these use cases, certification is a must-have feature, but low-cost and ultra-low power are the economic and technical enablers.

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This post has been republished with permission from SemiWiki.com, where Eric Esteve is a principle blogger and one of the four founding members of the site. This blog first appeared on SemiWiki on November 15, 2015.

mbed eval boards showcase focus on IoT software and connectivity

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Chipmakers like Atmel are joining hands with ARM to bring the entire ecosystem under one roof and thus facilitate the creation of standards-based IoT products.

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ARM’s mbed operating system is winning attention in the highly fragmented embedded software space by promising a solid software foundation for interoperable hardware and thus scale the Internet of Things designs by narrowing the development time.

Atmel has put its weight behind ARM’s mbed OS by launching the single-chip evaluation board for the IoT ecosystem in a bid to ensure low software dependence for the embedded developers. The leading microcontroller supplier unveiled the mbed evaluation platform at the recent ARM TechCon held in Santa Clara, California.

The mbed OS platform is focused on rapid development of connected devices with an aim to create a serious professional platform to prototype IoT applications. So IoT developers don’t have to look to software guys for help. The mbed stack features a strong focus on enhancing the IoT’s connectivity and software components.

ARM is the lead maintainer for the mbed OS modules while it adds silicon partners, like Atmel, as platform-specific dependencies for the relevant mbed OS modules. Silicon partners are responsible for their platform-specific drivers.

Atmel’s mbed-enabled evaluation board is based on the low-power 2.4GHz wireless Cortex-M0+ SAM R21 MCU. Moreover, Atmel is expanding mbed OS support for its Wi-Fi modules and Bluetooth Low Energy products.

The fact that Atmel is adding mbed OS to its IoT ecosystem is an important nod for ARM’s mbed technology in its journey from merely a hardware abstraction layer to a full-fledged IoT platform. Atmel managers acknowledge that mbed technology adds diversity to embedded hardware devices and makes MCUs more capable.

Solid Software Foundation

There is a lot of code involved in the IoT applications and software is getting more complex. It encompasses, for instance, sensor library to acquire data, authentication at IoT gateways and SSL security. Here, the automatic software integration engine like mbed lets developers focus on their applications instead of worrying about integrating off-the-shelf software.

The mbed reference designs like the one showcased by Atmel during ARM TechCon are aimed at narrowing the development time with the availability of building blocks and design resources—components, code and infrastructure—needed to bootstrap a working IoT system. Atmel managers are confident that a quality software foundation like mbed could help bring IoT products to market faster.

Atmel’s mbed-enabled IoT evaluation board promises harmony between hardware and software. Apparently, chipmakers like Atmel are joining hands with ARM to bring the entire ecosystem — OS software, cloud services and developer tools — under one roof, and thus facilitate the creation of standards-based IoT products. Atmel’s mbed evaluation board clearly mirrors that effort to deliver a complete hardware, software and developer tools ecosystem in order to bring IoT designs quicker to market.

The platform comprises of mbed OS software for IoT client devices like gateways and mbed Device Server for the cloud services. ARM launched the mbed software platform in 2014 and Atmel has been part of this initiative since then.

mbed in Communications Stack

Additionally, Atmel has tied the mbed association to its SmartConnect wireless solutions to make the best of mbed’s networking stack in the Internet of connected things. The IoT technology is built on layers, and here, interoperability of communications protocols is a key challenge.

For a start, Atmel’s SAM R21-Xpro evaluation board is embed-enabled and is built around the R21 microcontroller, which has been designed for industrial and consumer wireless applications running proprietary communication stacks or IEEE 802.15.4-compliant solutions.

Next up, the evaluation board includes SAM W25 Wi-Fi module that integrates IEEE 802.11 b/g/n IoT network controller with the existing MCU solution, SAM D21, which is also based on the Cortex-M0+ processor core.

Furthermore, Atmel is offering an mbed-enabled Bluetooth starter kit that includes SAM L21 microcontroller-based evaluation board and ultra-low-power Bluetooth chip BTLC1000, which is compliant with Bluetooth Low Energy 4.1. Atmel demonstrated a home lighting system at the ARM TechCon show floor, which employed SAM R21-based Thread routers that passed light sensor information to an mbed-enabled home gateway. Subsequently, this information was processed and sent to the mbed Device Server using a web interface.

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Majeed Ahmad is the author of books Smartphone: Mobile Revolution at the Crossroads of Communications, Computing and Consumer Electronics and The Next Web of 50 Billion Devices: Mobile Internet’s Past, Present and Future.

Atmel and IoT and Crypto, oh my!

One of the companies that is best positioned to supply components into the Internet of Things (IoT) market is Atmel. For the time being most designs will be done using standard components, not doing massive integration on an SoC targeted at a specific market. The biggest issue in the early stage of market development will be working out what the customer wants and so the big premium will be on getting to market early and iterating fast, not premature cost optimization for a market that might not be big enough to support the design/NRE of a custom design.

Here is Atmel’s latest product in the SmartConnect family, the SAM W25 module

Atmel has microcontrollers, literally over 500 different flavors and in two families, the AVR family and a broad selection of ARM microcontrollers ad processors. They have wireless connectivity. They have strong solutions in security.

Indeed last week at Electronica in Germany they announced the latest product in the SmartConnect family, the SAM W25 module. It is the industry’s first fully-integrated FCC-certified Wi-Fi module with a standalone MCU and hardware security from a single source. The module is tiny, not much larger than a penny. The module includes Atmel’s recently-announced 2.4GHz IEEE 802.11 b/g/n Wi-Fi WINC1500, along with an Atmel | SMART SAM D21 ARM Cortex M0+-based MCU and Atmel’s ATECC108A optimized CryptoAuthentication engine with ultra-secure hardware-based key storage for secure connectivity.

Atmel at Electronica 2014

That last item is a key component for many IoT designs. Security is going to be a big thing and with so many well-publicized breaches of software security, the algorithms, and particularly the keys, are moving quickly into hardware. That component, the ATECC108A, provides state-of-the-art hardware security including a full turnkey Elliptic Curve Digital Signature Algorithm (ECDSA) engine using key sizes of 256 or 283 bits – appropriate for modern security environments without the long computation delay typical of software solutions. Access to the device is through a standard I²C Interface at speeds up to 1Mb/sec. It is compatible with standard Serial EEPROM I²C Interface specifications. Compared to software, the device is:

• Higher performance (faster encryption)
• Lower power
• Much harder to compromise

Atmel has a new white paper out, Integrating the Internet of Things, Necessary Building Blocks for Broad Market Adoption. Depending on whose numbers you believe, there will be 50 billion IoT edge devices connected by 2020.

Edge nodes are becoming integrated into everyone’s life

As it says in the white paper:

On first inspection, the requirements of an IoT edge device appear to be much the same as any other microcontroller (MCU) based development project. You have one or more sensors that are read by an MCU, the data may then be processed locally prior to sending it off to another application or causing another event to occur such as turning on a motor. However, there are decisions to be made regarding how to communicate with these other applications. Wired, wireless, and power line communication (PLC) are the usual options. But, then you have to consider that many IoT devices are going to be battery powered, which means that their power consumption needs to be kept as low as possible to prolong battery life. The complexities deepen when you consider the security implications of a connected device as well. And that’s not just security of data being transferred, but also ensuring your device can’t be cloned and that it does not allow unauthorized applications to run on it.

IoT design requirements: Software / development tools ecosystem

For almost any application, the building blocks for an IoT edge node are the same:

• Embedded processing
• Sensors
• Connectivity
• Security
• And while not really a “building block,” ultra-low power for always-on applications

My view is that the biggest of these issues will be security. After all, even though Atmel has hundreds of different microcontrollers and microprocessors, there are plenty of other suppliers. Same goes for connectivity solutions. But strong cryptographhic solutions implemented in hardware are much less common.

The new IoT white paper is available for download here.

This post has been republished with permission from SemiWiki.com, where Paul McLellan is a featured blogger. It first appeared there on November 19, 2014.

Introducing the SmartConnect SAM W25 module for edge nodes IoT applications

Now on display at Electronica 2014, the SmartConnect SAM W25 module is the industry’s first fully-integrated FCC-certified Wi-Fi module with a standalone MCU and hardware security from a single source. The module includes Atmel’s recently-announced 2.4GHz IEEE 802.11 b/g/n Wi-Fi WINC1500, along with an Atmel | SMART SAM D21 ARM Cortex M0+-based MCU and Atmel’s ATECC108A optimized CryptoAuthentication engine with ultra-secure hardware-based key storage for secure connectivity.

With nearly 5 billion connected devices expected next year with another 25 billion predicted by 2020, designers are now demanding more flexible, cost-optimized modules that provide a complete end-point solution from a single vendor. The fully-integrated SAM W25 delivers a secure ‘plug and play’ solution integrating wireless technologies with the design flexibility required for these IoT developers.

The billions of devices in edge nodes IoT applications will be powered by an embedded processing unit such as an MCU, and connected through a secure wireless signal. As more embedded developers start designing IoT apps for smart, secure connected devices, the need for solutions that integrate an MCU, hardware security and pre-certified wireless connectivity solution into one box will become a critical piece of the IoT puzzle; thereby, designers will no longer need wireless or encryption expertise to create an IoT gadget or gizmo.

Atmel’s FCC-, Telec-, IC- and CE-certified SAM W25 is a standalone solution that gives designers an all-in-one platform with a low-power MCU, hardware security and FCC-certified wireless connectivity from a single source. The small packaged module is cost optimized to lower the overall bill of materials for battery-operated applications ranging from remotes to home automation devices and beyond.

“IoT will impact nearly everyone’s lives ranging from their garage to their lighting systems, door locks, thermostats, fitness monitors, medical devices and more,” said Kaivan Karimi, Atmel Vice President and GM of Wireless MCUs. “Every one of these IoT devices will require an integrated edge node solution that delivers an MCU and secure wireless connectivity. Atmel’s SAM W25 delivers just that—a fully integrated secure wireless MCU module with over-the-air upgrade functionality that simplifies the complexities of wireless and security, and gives our customers time-to-market advantage. Atmel is committed to making it easier for IoT designers to bring their latest products to market with fully integrated modules that are ‘out-of-the-box’ ready to use, so developers can focus on developing features that will enhance the consumer experience.”

Key features of the Atmel SmartConnect SAM W25 include

• Turnkey system with integrated software that includes TLS 1.0 and a TCP/IP stack WPA2 personal and enterprise security
• FCC-certified 2.4GHz IEEE 802.11 b/g/n Wi-Fi WINC1500
• Atmel | SMART ARM Cortex M0+-based SAM D21; 256KB Flash; 32KB SRAM
• Serial Peripheral Interface (SPI)
• Over-the-air updates
• ATECC108A CryptoAuthentication engine with ultra-secure hardware-based key storage for secure connectivity

Though the Atmel SAM W25 module won’t be available until December 2014, Electronica attendees can now get a firsthand sneak peek at the ‘plug and play’ solution. To help accelerate design development, Atmel offers a SAM W25 integrated module on an Xplained starter kit platform which will be available next month as well.