Protect sensitive electronics by understanding the current limiting resistor, learning how to calculate appropriate values, and applying them in LEDs, transistors, microcontroller inputs and other circuits.
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TAGGED WITH flexible electronics
Protect sensitive electronics by understanding the current limiting resistor, learning how to calculate appropriate values, and applying them in LEDs, transistors, microcontroller inputs and other circuits.
This guide explains how potentiometer pins interact with mechanical rotation, resistive tracks, and load conditions across various circuit configurations. It provides clarity for both low-power electronic designs and high-precision embedded systems.
This technical article explains the theory behind potentiometer schematics. It shows how to implement mechanical and digital potentiometers in practical circuits, tailored for engineers, and students.
Engineering teams can achieve AI-ready design data with five-level maturity model by Keysight. The unified, traceable data accelerates design cycles, boosts IP reuse, and reduces costly re-spins.
TAGGED WITH microchips
Focused laser-like light that covers a wide range of frequencies is highly desirable for many scientific studies and for many applications, for instance quality control of manufacturing semiconductor electronic chips.
Scientists at ITMO have come up with a new way to protect microelectronics devices from counterfeit. The new technology is based on gold and silicon nanoparticles with unique optical properties that make it possible to create unclonable functions with a record information density.
An international team of scientists was first to demonstrate that halide perovskites can serve as a base for nonlinear on-chip optical components. As an example, they can be used to build ultrafast optical chips and transistors, and, potentially, other integrated optical systems.
In this episode, we explore how organ-on-a-chip technology is advancing our understanding of cancer behavior.
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This article explores the theory, design, and practical applications of the current divider in electrical engineering, covering resistive, reactive, and transistor-based implementations for accurate current control and distribution.
EPFL researchers have engineered a fiber-based electronic sensor that remains functional even when stretched to over 10 times its original length. The device holds promise for smart textiles, physical rehabilitation devices, and soft robotics.
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Engineered for Ultra-Fast Transient Control and Rapid Current Response
Article #1 of Mastering RF Engineering: RF technology powers everything from wireless communication to radar and circuit design. It involves spectrum behavior, key components, interconnects, and system design that together define how modern wireless and high-frequency systems operate and evolve.
This technical article explains how to solder wires effectively, covering tools, techniques, tinning, flux selection, solder joints, and modern automation trends for achieving reliable, high-performance electrical connections in engineering applications.
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