MEMS-based sensors for high-performance environmental monitoring   Watch now

Watch the webinar recording to discover the latest generation of go-anywhere environmental sensors with outstanding sensing accuracy and performance over a wide range of applications.

In this session we introduce our complete sensor portfolio, first highlighting motion MEMs sensors, then focusing on environmental sensors as we introduce our newest and most advanced temperature and pressure sensing devices.

ST offers a wide range of MEMS and sensors covering a full spectrum of applications, from low-power devices for IoT and battery-operated applications to high-end devices for accurate navigation and positioning, Industry 4.0, augmented/virtual reality, and smartphones.

Our environmental sensors include ultra-small silicon pressure sensors and a temperature sensor portfolio consisting of both analog and digital temperature sensors.

You will learn:

• the range of devices in ST's extensive MEMS sensor portfolio.
• the key features of ST’s MEMS pressure sensor family and how it offers both high performance and robust environmental resistance.
• what makes ST's analog and digital temperature sensor ICs ideal for a wide range of applications.
• about our rich development ecosystem for sensor evaluation and development.

Speaker

Kirby Atwater is a Product Marketing Staff Engineer with STMicroelectronics, supporting ST's MEMS sensors portfolio and low-power RF products in North America. Currently located in the Schaumburg, IL office, he joined ST in 2005 and has supported a wide variety of products to ST customers in the USA and Canada. Prior to joining ST, he was a Field Applications Engineer with ST’s distribution partners, and a project design engineer. Kirby graduated from Purdue University with a BSEE.

About environmental sensors from STMicroelectronics

STMicroelectronics offers a full kit of environmental sensors, including pressure, humidity and temperature sensors. These sensors rely on dedicated mechanical structures that guarantee the best performance even in the most challenging environmental conditions.

They are adopted in many wearable devices to monitor health and for fitness programs, in smart home or other industrial applications to monitor weather conditions and guarantee good equipment safety.