Seoul Semiconductor’s ZC series chip-on-board (COB) LED arrays, available in power levels from 4 W to 100 W, offer high lumen density and efficacies of up to 140 lm/W. Available in all popular colour temperatures from 2700 K up to 6000 K, these high flux packages deliver system level performance of 700 lumens to over 6000 lumens.
The parts are available in a single 3-step MacAdam binning, ensuring excellent colour consistency with minimum CRI options of 70 and 80.
Read more...High-performance µC series NuVision Electronics
Computer/Embedded Technology
GigaDevice has announced the official launch of the GD32F503/505 high-performance series of 32-bit general-purpose microcontrollers based on the Arm Cortex-M33 core.
Read more...High power from DC to 6 GHz NuVision Electronics
Telecoms, Datacoms, Wireless, IoT
WAVEPIA’s latest GaN-on-SiC transistor, the WP2806015UH(S), delivers up to 15 W power from DC to 6 GHz at 28 V.
Read more...Energy harvesting using a battery-less IoT system NuVision Electronics
Editor's Choice Power Electronics / Power Management
Energy Harvesting plays an essential role in the foundation of ambient IoT, a new generation of ultra-low power connected devices that operate by drawing energy from their environment instead of relying on traditional batteries.
Read more...Versatile range of camera modules EBV Electrolink
Opto-Electronics
The CAM-66GY pro-modules from ST are a full range of sample camera modules made for a seamless evaluation and integration of the VD66GY 1,5-megapixel colour image sensor.
Read more...Enhanced breaker status and communication module Schneider Electric South Africa
Opto-Electronics
Schneider Electric has announced the launch of its new Breaker Status and Communication Module (BSCM) Modbus SL/ULP, which delivers enhanced performance, improved connectivity, and simplified integration for power distribution systems.
Read more...Enhance SiC device efficiency using merged-pin Schottky diodes NuVision Electronics
Editor's Choice Power Electronics / Power Management
Silicon carbide (SiC) has advantages over silicon (Si) that make it particularly suitable for Schottky diodes in applications such as fast battery chargers, photovoltaic (PV) battery converters, and traction inverters.
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