Sector News

Compact LoRa module uses Renesas Synergy

Tue, Feb 19, 2019

Hardware and software supplied by Renesas Electronics is used by Miromicro following the companies’ collaboration to develop an enhanced LoRa module, based on Synergy.

The compact and low-power FMLR-61-x-RSS3 module is based on LoRa devices and wireless radio frequency (RF) technology. The Miromico module enables customers to connect easily to LoRaWAN-based networks and uses the Synergy platform to give customers access to microcontrollers (MCUs) and a large production-grade software package.

Engineers can use the S3A6 MCU on the LoRa-based module to handle various tasks, while seamlessly streaming data across a LoRaWAN-based network to the cloud. The LoRaWAN protocol is quickly becoming the de facto standard to connect the ‘things’ of the IoT across long distances (up to 50km), flexibly and securely, while keeping batteries alive for years.

The FMLR-61-x-RSS3 measures only 14.2 x 19.5mm. Operating voltage is 1.8 to 3.3V and power consumption ranges from 1.4 microA in sleep mode to 25.5mA (typical) in TX mode (14dBm). Receiver sensitivity is -148dBm in LoRa mode SF12 at 10.4 kHz and operating temperature range is -40 to +85 degrees C.

The licensed LoRaWAN stack has firmware over the air (FOTA) capabilities. The module’s specifications make it suitable for urban as well as rural sensing applications such as metering, asset tracking, building automation, security, wearables and predictive maintenance, says Renesas.

The FMLR-61-x-RSS3 module employs the S3A6 MCU with integrated 48MHz Arm Cortex-M4 core, and features 256kbyte code flash memory, 8kbyte data flash, and 32kbyte SRAM. Most MCU signals are available at the module level to make them externally accessible.

Manufactured in a low- power process, the S3A6 peripheral set includes analogue features such as a 14-bit SAR ADC, 12-bit DAC, op amps, and comparators. Timer channels and serial ports, USB function, CAN, DMA, and powerful safety and security hardware makes the S3A6 suitable for battery-operated applications. As part of the Renesas MCU portfolio, the S3A6 can be scaled up for more functionality or scaled down for cost optimisation.

The Renesas Synergy Platform features production-grade software in the Synergy Software Package (SSP). This includes the ThreadX RTOS and associated middleware such as a file system, USB stack, graphical user interface (GUI) software, application frameworks and functional libraries that can be used for encryption and DSP functions.

Samples of the FMLR-61-x-RSS3 LoRa module are available now from Miromico and distributor, Avnet Silica. Mass production is scheduled to start in Q2 2019.

Both Renesas and Miromico are LoRa Alliance members.

The FMLR-61-x-RSS3 demo kit will be on display at the Avnet Silica at Embedded World 2019, in Nuremberg, Germany (Hall 1 – Stand 1-370).

http://www.renesas.com

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Renesas Electronics simplifies automation network for buildings

Fri, Feb 15, 2019

At this year’s Embedded World, Renesas Electronics will show a proof-of-concept G3-PLC modem with KNX protocol that is claimed to simplify building automation for smart buildings.

The company has implemented KNX protocol on its G3-PLC powerline communication (PLC) solution. Based on the Powerline Modem Solution, Renesas will demonstrate a proof of concept to illustrate how to implement KNX networks and take advantage of the flexibility and efficiency of modern G3-PLC technology while eliminating the need for new network cable deployment.

Combining data line and power line onto one cable system and using the most efficient modulation techniques, PLC is a cost-efficient way to expand connectivity through the building in particular over long distances and across the walls.

Most commercial buildings have areas where RF and tradition network cabling do not reach. The Renesas Powerline Modem Solution demonstrates the possibilities for G3-PLC technology to address these needs without requiring new cable deployment by combining the advantages of the open G3-PLC standard with the popular KNX protocol. The result, says Renesas, will enable the deployment of reliable and cost-effective networking solutions for HVAC, lighting, fire and safety, and building access security.

Primarily developed for energy metering applications, the G3-PLC protocol is freely usable as an open standard and continuously maintained by the G3-PLC Alliance. 

The Renesas Powerline Modem Solution comprises Renesas’ OFDM PLC software modem (R9A06G037), a Renesas Synergy microcontroller (MCU) and the ISL15102, which serves as the power line driver. The software stack is based on the Synergy Software package (SSP) and combines the Renesas G3-PLC stack with a KNX software stack provided by Tapko Technologies. The proof-of-concept allows customers to build KNX over the G3-PLC protocol, offering a smooth migration path from existing KNX standard towards upcoming KNX IoT standard.

G3-PLC is a protocol for narrow band low frequency powerline communication that facilitates high-speed, highly-reliable, long-range communication over the existing powerline grid. The protocol is developed and maintained by the G3-PLC Alliance.

The Renesas G3-PLC Modem Solution with complete set of software supporting KNX Protocol will be available in Q3, 2019.

Visit Renesas at Embedded World in Nuremberg, Germany (26 to 28 February) Hall 1 – stand 1-310.

http://www.renesas.com

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Safety laser clears a safe path

Thu, Feb 14, 2019

Automated guided vehicles (AGVs) can be operated safely using the RSL 400 safety laser scanner, using protective and warning fields. It also simultaneously captures the measurement values for the navigation software.

When the triangulation principle is used for navigation, AGVs are typically equipped with two different sensors, one for safety and one for navigation. The RSL 400 safety laser scanner from Leuze Electronic, however, not only handles the safety aspects, but also provides all measurement values for the AGV’s navigation based on the natural navigation principle. In addition, the measurement values have an extremely high angular resolution and accuracy, reports Leuze. This is important to precisely determine the position of the AGV. Consequently, only one scanner is needed for safety and navigation functions.

Measurement value output of the RSL 400 is optimised for navigation software that functions according to the principle of natural navigation with simultaneous localisation and mapping (SLAM). With each revolution of its deflection unit, which last 40 milliseconds each, the safety laser scanner emits 2,700 light pulses which are scattered in all directions on obstacles. Parts of the scattered light are transmitted back to the scanner and used to calculate the distance to the obstacle. Similar to a map, the navigation software contains an image of the respective room, including all fixed boundaries. The current position of the AGV is then calculated by comparing the measurement values to the map. This concept is referred to as natural navigation.

The more detailed and exact the measurement values of a scanner are, the more precisely the AGV can navigate. With an angular resolution of 0.1 degrees, the RSL 400 can capture the environment in high detail over the entire measurement range up to 50m. This is achieved through a narrow laser spot that maintains its perpendicular shape over the entire scanning angle. It also reduces incorrect measurements, which can occur on edges.

In addition to the angular resolution, distance values are also important. Typical error accuracy is less than 30mm. The values are not affected by the reflectance of the object, whether it is a reflector or a black wall. The additional output of the received signal strength value for each beam allows autonomous detection of reflectors by the navigation software. When beams strike a reflector, the values differ greatly from any other environment. This makes simple and reliable detection possible.

Safety features include the ability to offer up to 100 switchable protective and warning field pairs. This high number means that the protective fields can be adapted to the respective movement and load conditions as well as the speed of the vehicles. In four-field mode with 50 switchable field sets, the device can monitor up to four protective fields simultaneously. This enables safe and reliable reduction of the speed of AGVs. With a scanning angle of 270 degrees, the RSL 400 can also cover the front and side areas of AGVs at the same time, for example, around corners.

Maximum operating range is 8.25m, meaning that even large AGVs can be safeguarded with only two RSL 400.

The product range includes nine variants, three of which with data output for AGV navigation. All models are available for the four operating ranges of 3.0, 4.5, 6.25, and 8.25m. Models with PROFIsafe/ProfiNet interfaces are also available. These interfaces make it easier to integrate the devices, particularly when many different protective field configurations are used.

 http://www.leuze.com

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Low-power wi-fi chip improves battery for the IoT

Thu, Feb 14, 2019

Fabless semiconductor company, InnoPhase has announced the Talaria TWO wireless IoT chip. It contains a full functionality, multi-protocol transceiver, MAC/PHY, digital power amplifier and an embedded Arm processor for lightweight applications, explains InnoPhase.

The Talaria TWO chip is designed for battery-based IoT applications and is claimed to be optimised to be the lowest power Wi-Fi solution in the industry. It has the potential to create a whole new class of IoT products that can cut the power cord and be battery-based with a DTIM3 specification at least half that of leading low-power wi-fi solutions, predicts InnoPhase.

Power consumption limits the potential of battery-powered, wirelessly connected products. Frequent battery changes can be inconvenient and expensive. Low-power wireless connectivity designs have to the potential to introduce a range of battery-powered IoT products to the approximately four billion wi-fi-enabled products that now ship each year.

The Talaria TWO platform uses InnoPhase’s patented PolaRFusion radio architecture, which processes radio signals using polar co-ordinates rather than traditional IQ co-ordinates. This digitally-intensive radio option dramatically reduces the amount of power required to transmit, process, and receive wireless information using industry standard wireless protocols, says InnoPhase. This is achieved by moving most of the radio signal processing from power-hungry analogue circuits, found in today’s IQ-architecture wireless devices, into power- and size-efficient digital logic. It actively manages multi-protocol co-existence for 802.11b/g/n and Bluetooth Low Energy 5.0 for edge of network applications.

Initial customer products developed using Talaria TWO have shown battery life improvements of more than 50 per cent compared with competing solutions. Products will now be able to go weeks, months or even years longer between battery charging or replacement, says InnoPhase.

Key customers are now sampling the extreme low power Talaria TWO wireless platform with full commercial availability and certification scheduled for mid-2019.

InnoPhase specialises in extreme low power wireless solutions. The company is headquartered in San Diego, California with additional advanced development centres located in Kista, Sweden, and Shanghai, China.

The company developed the industry’s first digital PolaRFusion radio architecture.

http://www.innophaseinc.com

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