Keyword: Semiconductors & ICs

Semiconductors & ICs

Stories

White Papers: Research Lab
How to Select and Evaluate Clean Room Movement Systems: A 7-step Guide

This paper provides a road map that makes it easier to determine the appropriate method to move machinery and tools in clean rooms. As you walk through the short but...

Features: Sensors/Data Acquisition
Early indicators suggest that there are significant mood improvements that assist in the quality of life for the patients testing the devices.
Features: Test & Measurement
The SLG47004 can be used as a cost-effective integrated solution for the analog front-end of an ECG monitor.
Features: Medical
Going into 2022, remote monitoring, wearables, sensors, and other "mHealth" products are taking center stage.
Briefs: Semiconductors & ICs
The noninvasive nanochip applies a harmless electric spark to deliver specific genes in a fraction of a second.
Briefs: Electronics & Computers
The new design improves the conversion efficiency and power density of the chip.
Global Innovations: Semiconductors & ICs
A coating minimizes tissue damage by reducing friction.
Briefs: Medical
The candy was used as an electrode to detect salt and electrolyte levels in saliva.
Products: Medical
Lumen chips, force sensors, safety clips, and more.
INSIDER: Medical

Researchers are reporting a breakthrough in the field of materials science and engineering with the development of an electrochemical actuator that uses specialized organic...

Technology Leaders: Medical
Through better detection, digital mammography can significantly improve radiology outcomes.
Technology Leaders: Electronics & Computers
Small medical electronics are at the forefront of a new round of technology trends involving printed circuit board (PCB) assembly and manufacturing.
R&D: Photonics/Optics
To make ultraviolet (UV)-detecting wearables, scientists have created a new type of light sensor that is both flexible and highly sensitive.
R&D: Electronics & Computers
Researchers have demonstrated that they can print layers of electrically conductive ink on polyester fabric.
Products: Electronics & Computers
Reference design kits, smart textiles, thermoplastic elastomers, and more.
Briefs: Sensors/Data Acquisition
The use of nanosensors detects cortisol molecules directly.
Briefs: Manufacturing & Prototyping
Automation removes the possibility of human error in high-precision or repetitive processes.
Briefs: Sensors/Data Acquisition
The design could lead to conformable wearable monitors to track skin cancer and other conditions.
Briefs: Electronics & Computers
The single-chip system is a complete functioning electronic circuit.
Briefs: Medical
The single-chip system is a complete functioning electronic circuit.
Products: Test & Measurement
Medical connectors, servo positioners, SMT jumpers, and more.
R&D: Energy
A flexible heat harvesting device shows better efficiency at retaining heat to power the device.
R&D: Sensors/Data Acquisition
An optomechanical ultrasound sensor on a silicon photonic chip provides unprecedented sensitivity due to an innovative optomechanical waveguide.
Briefs: Materials
The cellulose nanofiber coating counters bending damage and retains electrode function under water.
Briefs: Electronics & Computers
The surface waves provide a thermal transport solution.
R&D: Energy
The device can be used in flexible, stretchable electronics for wearables as well as soft robotics.
Briefs: Semiconductors & ICs
Detector can identify radioactive isotopes with high resolution.
Briefs: RF & Microwave Electronics
The stretchable fabric is embroidered with conductive threads that provide excellent signal-to-noise ratio.

Ask the Expert

John Chandler on Achieving Quality Motion Control

FAULHABER MICROMO brings together the highest quality motion technologies and value-added services, together with global engineering, sourcing, and manufacturing, to deliver top quality micro motion solutions. With 34 years’ experience, John Chandler injects a key engineering perspective into all new projects and enjoys working closely with OEM customers to bring exciting new technologies to market.

Inside Story

Rapid Precision Prototyping Program Speeds Medtech Product Development

Rapid prototyping technologies play an important role in supporting new product development (NPD) by companies that are working to bring novel and innovative products to market. But in advanced industries where products often make use of multiple technologies, and where meeting a part’s exacting tolerances is essential, speed without precision is rarely enough. In such advanced manufacturing—including the medical device and surgical robotics industries — the ability to produce high-precision prototypes early in the development cycle can be critical for meeting design expectations and bringing finished products to market efficiently.