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Advertorials


AAEON UP Squared Grove IoT Dev Kit, now at Mouser, brings together Intel processing and Arduino simplicity


Mouser Electronics, Inc., the New Product Introduction (NPI) leader that empowers innovation, is now stocking the UP Squared Grove IoT Development Kit from AAEON. Designed as a modular and ready to use toolset optimized for simplicity, the kit combines a custom Ubuntu 16.04 LTS operating system and end-to-end tools to reduce development time and offer a high-performance development platform for computer vision, machine learning, and data aggregation applications.


The AAEON UP Squared Grove IoT Development Kit, available from Mouser Electronics, combines an AAEON UP Squared board and the Seeed Studio Grove prototyping system with the Arduino Create integrated online platform. The AAEON UP Squared is a high- performance x86 board based on a 2.4 GHz Intel® Celeron®


Lattice releases next-generation FPGA software for development of broad market low power


embedded applications Lattice Semiconductor Corporation (NASDAQ: LSCC), a leading provider of customisable smart connectivity solutions, today announced the release of its new FPGA software, Lattice Radiant™, targeted for the development of broad market low power embedded applications. With its rich feature set and ease-of-use, Lattice Radiant software’s support for iCE40 UltraPlus™ FPGAs greatly expands the device’s application across broad market segments including mobile, consumer, industrial, and automotive. iCE40 UltraPlus devices are the world’s smallest FPGAs with enhanced memory and DSPs to enable always on, distributed processing. The Lattice Radiant software is now available for download, free of charge.


FPGA with 2,000 logic elements (LE), 8 Gbytes of LPDDR4 RAM, and 32 Gbytes of eMMC storage, plus a robust offering of input/output (IO) expansion options.


The Seeed Grove prototyping system is a collection of single-function modules with standardized connectors to simplify building electronic circuits without solder or breadboards. The included Grove sensors kit contains a shield to connect to the UP Squared board, an LCD display, rotary angle sensor, light sensor, button, LED, temperature sensor, and humidity sensor. With a clear upgrade path to other Grove sensors, the kit can be deployed to production with additional connectivity components and an industrial grade chassis.


AAEON UP Squared Grove IoT Development Kit includes support from Arduino Create, a web-based platform that includes an up-to-date online Arduino integrated development environment (IDE) with a web editor and collaboration tools. Arduino Create includes examples specifically built for the UP Squared Grove IoT Dev Kit, as well as libraries such as OpenCV and the Intel Math Kernel Library (MKL).


To learn more, visit www.mouser.com/aaeon-up-squared-grove-iot-kit


Single output Logic dividers from Nexperia deliver space-saving of up to 93% for superior


system efficiency New range of overvoltage-tolerant AHC Logic dividers increase flexibility and reliability


Nexperia, the former Standard Products division of NXP, today announced a new range of AHC (Advanced High speed CMOS) dividers with oscillators that save space, increase efficiency and reduce overall system cost. This new 74AHC1G42xx dividers range also offers -for the first time- overvoltage-tolerant inputs for mixed voltage mode operation, increasing reliability and flexibility in designs.


Standard general-purpose logic dividers/counters (74HC4020, 74HC4040 and 74HC4060) have


multiple outputs which remain unused in many applications, resulting in most divider solutions being oversized. Nexperia’s 74AHC1G42xx dedicated single output Mini Logic dividers offer specific 2xx frequency division (xx = 01 to 16) in a TSSOP5 package measuring just 4.4mm², substantially smaller than SO16-packaged devices.


Signal integrity performance for Nexperia’s 74AHC1G42xx range of single output dividers in Mini Logic package is equivalent to other solutions. Devices are being qualified to AEC-Q100 for automotive use and operate across the -40°C to +125°C temperature range. Three AHC dividers are available now, download the leaflet to learn more:


https://assets.nexperia.com/documents/leaflet/Nexperia_AHC_dividers_leaflet.pdf


Highly reliable and robust high CV screw terminal electrolytic capacitors from KEMET


now available through TTI, Inc. Now available in Europe through TTI, Inc., a world leading specialist distributor of electronic components, are ALS70 and ALS80 series high CV screw terminal electrolytic capacitors from KEMET. The products are ideal for use in frequency converters, uninterruptible power supplies (UPS) and switch mode power supplies (SMPS) in challenging electrical and environmental applications including rail.


The capacitors combine performance with reliability and offer the high CV values in smaller case sizes making them easier and more cost- effective to incorporate in designs. High ripple voltage ratings and long-life performance are further key features of the robust devices.


The capacitors are available with values that span from 300 up to 1,300,000 microfarads and voltages of 25VDC up to 550VDC. Offset terminals for polarity protection and stud mount versions are available.


www.ttieurope.com


N3350 system-on-chip (SoC) for fast CPU and graphics capabilities. The board features an Intel MAX®


10


“Lattice is increasingly witnessing customers who are seeking to benefit from the ultra-low power, small form factor, and low cost features of iCE40 UltraPlus FPGAs,” said Choon-Hoe Yeoh, senior director, software marketing at Lattice Semiconductor. “Lattice Radiant software provides a range of enhancements for designing with iCE40 UltraPlus FPGAs in order to drive innovative designs in emerging embedded applications.”


Lattice Radiant software provides a robust design environment and significantly improves productivity and user experience for designing with iCE40 UltraPlus FPGAs. The IP ecosystem infrastructure enriches IP core support for the iCE40 UltraPlus device family for a broad range of applications including IoT sensor bridging, 8:1 microphone aggregation, and face detection.


www.latticesemi.com New Keyed SMA fibre optic system from OMC


ensures consistent mated performance Combines best features of multiple connector styles; eliminates rotational variation


OMC, a pioneer in optoelectronics design and manufacture, has launched a new, Keyed SMA (KSMA) connector and diode receptacle system for its wide range of fibre optic transmitters and receivers which offers the rotational consistency of a keyed connector alongside the security and reliability for which the SMA connector is renowned.


The KSMA fibre optic connector system combines a new connector and diode housing design, which OMC describe as delivering the best of all worlds. Unlike the standard SMA connector, which can be inserted at any rotation about the ferrule axis, OMC’s KSMA system


incorporates a mechanical keyway mechanism, thus eliminating rotational variation when a cable is mated to the transmitter or receiver. The connector continues to feature the secure hexagonal lock-nut fixing of OMC’s standard SMA connector, ensuring maximum long-term integrity of the connection.


The industrial sector generally finds the SMA (H22) style devices useful because the connector lock-nut, once tightened, ensures that the fibre is firmly secured in place; other styles, for example sprung devices, can allow the fibre to pull back and change the attenuation of the link if any tension is brought to bear on the cable. The new KSMA diode housing also retains another major benefit of OMC’s traditional PCB mount SMA (H22 style) housing - the rugged, all-metal design.


www.omc.uk.com


Red Pitaya adds Vector Network Analyser capabilities to low cost credit-card-sized, reconfigurable STEMlab instrument


Multi-function, open-source, reconfigurable test and measurement platform can now measure electrical performance of RF components


Red Pitaya, the company that is pioneering the move to low cost, open-source, reconfigurable instrumentation with its credit-card- sized STEMlab™ platform, today launched a VNA new bridge module and application that enables STEMLab to function an affordable vector network analyser (VNA), a precision measuring tool that tests the electrical performance of high frequency components in the radio frequency.


STEMlab is a test and measurement environment that includes a board, an application marketplace and a source code library. It is designed as a low-cost alternative to many expensive measurement and control instruments. STEMlab can function as an Oscilloscope, Logic Analyser, Signal Generator, Spectrum Analyser and more, also performing other tasks, now including vector network analysis.


To run the VNA application users need a STEMlab plus an additional VNA bridge module – both available from Red Pitaya’s web store. VNA is a contributed application that runs on Windows and Linux. It covers a frequency range of 500kHz to 62MHz, has a directivity of 42dB (typ), a dynamic range of 74dB and a noise floor of 88dBm. Software features include: plot formats (Smith chart, impedance, SWR, reference coefficient, return loss); open, short & load calibration modes; measurement export and marker readouts. Included in the VNA module box are an RF SWR bridge module in an aluminium enclosure, calibration accessories (50 ohm, open & short load) and cables.


www.redpitaya.com


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