The new SFH 7060 sensor from Osram Opto Semiconductors is designed to measure pulse rates and the oxygen saturation level of blood. It offers excellent signal quality and low energy consumption. The main market segment for this component includes...
Amphenol Industrial Products Group now offers SurLok Plus, a high current cabling system designed to meet the needs of energy storage for commercial and residential battery storage systems as well as electric and hybrid electric vehicles.
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Amphenol Industrial Products now offers a high vibration brush terminal series designed to withstand harsh environments. By intermeshing two small wire bundles together, an electrical connection is made with 14 to 70 points of contact per mated ...
TE Connectivity recently announced its new AMPLIMITE IP67 D-subminiature connectors meet IP67 performance levels. Designed to meet MIL-DTL-24308 specifications, the new connectors have an environmental sealing that has been successfully...
Amphenol Industrial Products Group, a global leader in interconnect systems, now offers a plastic power connector series designed to be used in the hybrid electric vehicle (HEV) market. Amphenol’s compact universal power connectors ...
As replacements for traditional mechanical relays with lower reliability and shorter lifetimes, the new Vishay Semiconductors 1 Form A VOR1142A6, VOR1142B6, and VOR1142M4 provide high input-to-output isolation, current limit protection, and low...
Amphenol Industrial Products Group has introduced a new generation of industrial power connectors for use in harsh industrial, commercial, data center applications. The IP44 and IP67 rated Amphe-309 provides safe and reliable portable electrical ...
Amphenol Industrial Products Group now offers a signal splitter featuring six-terminal inputs that allow for higher combinations of functions in a single connector. The Tru-Loc splitter helps to reduce the number of connectors needed in an applic...
TDK Corp. recently introduced a new EPCOS NTC sensor element designed for measuring temperatures up to 650 °C. It is based on a high-temperature ceramic sensor element that is connected to a metallized aluminum oxide rod and then glass-encapsulat...
Developed by engineers at the Georgia Institute of Technology, optical rectennas use carbon nanotubes that act as antennas to capture light from the sun or other sources. As the waves of light hit the nanotube antennas, they create an oscillating...
