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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Has your electric motor failed? Ensuring that your motor is operational is critical to businesses. All electric motors have a predetermined life-span. Usually, this is around 30,000 to 40,000 hours. This is highly dependant on proper maintenance and care.
Researchers at ITMO University rolled out their far-field wireless technology for low-power devices such as Internet of Things (IoT) and smart home sensors detecting motion, temperature, humidity, and other parameters.
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Flexible hybrid electronics (FHE) enable bendable, stretchable devices for healthcare, consumer tech, and automotive. Explore how electronics manufacturers are leveraging FHE to meet new requirements across industries.
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Advanced PCBs use features like microvias and fine-line traces to achieve ultra-high wiring density that leads to miniaturization and improved device performance
This article explores a vital power-saving technique in digital design, covering core concepts, implementations, and the differences between fine-grained, coarse-grained, and software-controlled methods. Learn why clock gating is crucial for energy efficiency, its applications in diverse systems.
Innovative semiconductor solutions are essential for addressing ADAS sensor integration challenges, including power management, communication reliability, and safety enhancements, enabling smarter and safer automotive systems.
Nanoinks and nanopastes are composed of nanoparticles suspended in a solution or paste. These materials can be printed or applied to surfaces with extreme precision, making them ideal for electronic manufacturing.
Real-Time Clock (RTC) modules play a critical role in supporting cybersecurity compliance under the EU Cyber Resilience Act (CRA).
Discover how NOVA’s Smart Dispenser module unlocks consistent and high-precision trace printing for a range of ink viscosities.
Researchers developed a scalable, low-cost device that can generate high-power terahertz waves on a chip, without bulky silicon lenses.
The risks associated with high-voltage DC fast charging are reduced by essential high-quality components, ensuring that electric vehicles are not only a cleaner option but also a safe and reliable choice.
A new low-power system using radio frequency waves takes a major step toward autonomous, indoor drone navigation.
The future of hardware engineering is being redefined by automation, Git-powered version control, and CI/CD integration. With tools like AllSpice enabling real-time collaboration, development cycles are becoming faster, smarter, and more seamless—pushing the limits of innovation like never before.
Researchers at the Technical University of Munich (TUM) have invented an entirely new field of microscopy, nuclear spin microscopy. The team can visualize magnetic signals of nuclear magnetic resonance with a microscope.
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Using an approach called DNA origami, scientists at Caltech have developed a technique that could lead to cheaper, reusable biomarker sensors for quickly detecting proteins in bodily fluids, eliminating the need to send samples out to lab centers for testing.
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