The international advanced nature of the Heavy Duty Connector in terms of structural design and material use makes the connector outstanding in terms of electrical performance. Traditional connection methods cannot achieve the reliability of electrical connection systems.
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This new interface is widely considered an industrial connector, and its applications are not limited to manufacturing. This connector is designed to be tested in harsh industrial environments. Legacy connected devices provide users with years of guaranteed service in a typical office environment. However, exposing the same copper cable or fiber optic connector in extreme cases will degrade performance and reliability, and users must pay expensive maintenance fees to eliminate faults and replace Accessories. A new connector specifically designed to create a robust Ethernet connection in harsh environments, stronger than previous connectors. More powerful. more resistant.
Ultra-thin camera lens marks the breakthrough of smartphone thickness
A groundbreaking ultra-thin flat lens has been successfully developed, with a thickness just ten times that of a human hair. This innovation could significantly reduce the size and weight of smartphones, digital cameras, and glasses within the next five years. Researchers from the University of Utah, led by Professor Rajesh Menon, have published their findings in the latest issue of *Science Reports*.
The paper, titled *"Diffractive Lenses for Chromatic Aberration Correction for Ultra-Wideband Focusing"*, presents a new approach to optical design. Traditionally, cameras and imaging devices rely on multiple curved lenses to focus light properly. However, this new planar lens uses microstructures to manipulate light, eliminating the need for complex curved optics.
Unlike conventional lenses, this ultra-thin lens can be made from any transparent material—such as glass or plastic—making it highly versatile. It has the potential to revolutionize a wide range of technologies, including smartphones, drones, satellites, and medical imaging equipment. By replacing traditional lens stacks, this technology could make devices lighter, more compact, and more durable.
For example, even though the iPhone 6S was known for its slim design, its camera module remained relatively bulky. With the adoption of this flat lens, future smartphones could achieve even slimmer profiles without compromising image quality.
Professor Menon is optimistic about the commercial prospects of this technology and hopes it will be available in consumer products within the next five years. This development marks a major step forward in optical engineering and could pave the way for a new generation of lightweight, high-performance imaging systems.