Stories
Products: AR/AI
Technology Leaders: Electronics & Computers
INSIDER: RF & Microwave Electronics
Researchers are developing devices to explore the possibilities of wearable, flexible antennas. The team found that changing the geometry of the antenna changes its...
Products: Electronics & Computers
Briefs: Semiconductors & ICs
Briefs: Wearables
Traditionally, small chip antennas used in Bluetooth-enabled devices have required a designated ground “keep out” area to minimize interference from other components and...
Features: Medical
Traditionally, small chip antennas used in RF-enabled medical devices have required a designated ground “keep out” area to minimize interference from other components and ensure the ideal radiation...
Products: Connectivity
Pulse Electronics Corp., San Diego, CA, introduces a new internal dualband flexible printed circuit antenna to provide connectivity and data transmission for IoT applications in medical/ telemedicine,...
R&D: Robotics, Automation & Control
Treating Tumors with Antennas
Researchers from the University of Wisconsin-Madison are working to commercialize a new technology that could yield less invasive radiation therapies for cancer patients using ablation.
Top Stories
INSIDER: Medical

Self-Powered Ingestible Sensor Opens New Avenues for Gut Research
Briefs: Medical

Designing Feature-Rich Wearable Health and Fitness Devices
Briefs: Tubing & Extrusion

Extrusion Process Enables Synthetic Material Growth
Features: Medical

Enabling a Diabetic to Run the World Marathon Challenge
INSIDER: Medical

COVID-19 Smart Patch Vaccine Measures Effectiveness
INSIDER: Medical

Ask the Expert
Eric Dietsch on the Benefits of Nitinol Wire

In collaboration with the Fort Wayne Metals Engineering team, Eric Dietsch focuses on supporting customers with material recommendations, product development, and education. Eric is available to help you and your company with any Nitinol-related questions or needs that you may have.
Webcasts
On-Demand Webinars: Medical

Developing the Ultimate Medical Sensor Technology
Webinars: Medical

Precision Pulsed High Voltage: Electroporation Enabling Medical and Life...
Webinars: Medical

Product Development Lifecycle Management: Optimizing Quality, Cost, and Speed...
Webinars: Medical

Medical Device Biofilms: Slimy, Sticky, Stubborn, and Serious
On-Demand Webinars: AR/AI

Artificial Intelligence and Machine Learning: Making Medical Devices Smarter
On-Demand Webinars: Wearables

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.
Trending Stories
INSIDER: Sensors/Data Acquisition

Self-Powered Ingestible Sensor Opens New Avenues for Gut Research
Features: Regulations/Standards

Implementing IEC 62304 for Safe and Effective Medical Device Software — PART 1
Features: Medical

Implementing IEC 62304 for Safe and Effective Medical Device Software, PART 2
Technology Leaders: Medical

Plasticizer-Induced Stress Cracking of Rigid PVC and Polycarbonate
Technology Leaders: Design

Polyolefin Heat Shrink Tubing for Tight-Tolerance Medical Applications:...