High Performance Photodiodes For Wearable Health

Making the case for XF technology to enhance GNSS reliability.

On the following pages you can expect a detailed introduction to the world of quartz crystals.

This white paper provides an introduction to lithium polymer battery technology. It contains some important information on the design of housings and on how to handle these energy accumulators.

There are two different cell designs for lithium thionyl chloride batteries: spiral type and bobbin type. Spiral type batteries are particularly suitable for applications that require high pulse currents at irregular intervals.

This whitepaper presents an in-depth examination of the evolution and differences between traditional discreetly built temperature-compensated crystal oscillators and their modern application-specific integrated circuits based counterparts.

Choosing the proper SMT LED for your application can provide additional safeguards against the impacts of electrostatic discharge during assembly and in the field.

In this whitepaper, we will cover the history of Wi-Fi technologies, explore Wi-Fi 7 capabilities, popular end applications and discuss the role of frequency control in Wi-Fi 7 systems.

Designed to be inter-operable with existing ECL fiber transceiver drivers, Copperhead™ fibre channel copper transceiver line interface modules drive high frequency (fiber speed) signals over copper media.

Enhancing GNSS reliability with XF technology

The perceived complexity of understanding 5G, vague or overly visionary use cases and potential benefits for businesses, and inaccessibility due to CapEx are all fueling misconceptions of 5G.

The first level of power security is the reliability of power conversion hardware built for robust macro cell or pole-or-post-mounted remote radio heads (RRHs).

While the initial focus is on deploying 5G at a macro cell level to build out reliable networks, once that initial push is completed, the priority can shift to supporting newer use cases enabled by the high bandwidth and low latencies promised by 5G.

Optimizing power supply design to support high-capacity networking infrastructure.

As power demands across industries have risen, engineers have set their sights on developing solutions that ensure infrastructure keeps pace with growing demand. While they’ve made considerable progress toward that end, technology continues to advance at a break-neck pace.

Mitigating Today’s Power Engineering and Printed Circuit Board Density Challenges.

Powering Small Cells for 5G Private Networks and Distributed Antenna Systems (DAS)

Solar energy is one of the fastest growing renewable energy segments. With a focus on commercial, residential and utility, solar application solutions must be flexible enough to keep pace with rapidly emerging demands.

Deploying DC/DC Power Module Reference Design & Simulation Tools.

Overcoming Power Design Constraints for AC-to-DC Power Supplies.