Simple Solutions for Optimizing System Power and Reliability

This webinar was originally held on December 16, 2021 and is now available for on demand viewing.

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Summary

Customers expect technology to be intuitive, especially when measuring critical biological data. But hazards lurk inside and outside your system that can disrupt operation and create a bad user experience. When you're designing portable medical electronics, simple essential analog solutions can overcome these hazards, increasing reliability and improving customer satisfaction, all without complicated software changes.

Analog Devices offers unique power management, supervisory, and interface products to keep your system up and running. Join us and learn about essential analog solutions that protect delicate circuits from inappropriate voltages, reverse currents, and damaging faults. See how to improve customer experience by maximizing battery life for medical wearable devices over their entire lifetime, from the pharmacy shelf to the operating table. For larger battery stacks powering high-voltage systems, discover how to build robust networks with fault-tolerant controllers that diagnose their own malfunctions for reliable data communication inside in drones and e-bikes.

Speakers

Owen Thomas, Global Applications Engineer, Analog Devices

Owen Thomas is a Global Applications Engineer focused on healthcare applications. He has over 20 years of field applications experience designing projects that include analog, mixed signal and digital circuits. Owen joined Analog Devices in 2000 and received a Bachelors of Science in Engineering from DeVry Institute in Calgary, Canada.

Gordon Lee, Product Definer and Applications Manager, Analog Devices

Gordon Lee joined ADI in 2005 and is currently a product definer and applications manager. He leads a global team of engineers and has supported multiple product lines including serial interface, signal chain, RTC, level translator, and LED driver. His primary focus is on various types of sensors, serial interfaces, high-speed ADC applications, as well as FPGA, HDL, and embedded software design. He holds a M.S. in Electronics Engineering from San José State University.

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