VIEW THE ON-DEMAND WEBINAR TODAY
As fleet telematics technology continues to accelerate, design engineers will need to respond with reliable, miniaturized solutions that will enable high performing applications. See how TE Connectivity’s (TE) reliable, compact, high performance connectors, antennas solutions are enabling the reliability and connectivity for Fleet Telematics applications.
Enhancing Power Efficiency of Wireless IoT Devices – Focus on Antenna Components
DOWNLOAD THE WHITEPAPERQuick reference guide to help you find the most suitable wireless module compatible with TE Antennas for optimum performance of your device.
In part 2 of this webinar, Embedded Planet will describe how Telit and TE connectivity reduce the time to market but provide the highest level of features for the market.
During this webinar, Embedded Planet will demonstrate the capabilities of a high-performance fleet telematics solution. This solution also features a wireless sensor from TE Connectivity and the use of Telit’s OneEdge solution to management cloud to cloud connections and remote management in the field.
Register today to join IoT experts: Nathan Lee, Sr. Mgr. of IoT Sales & Business Development at TE Connectivity; Steven Weeres, Regional Sales Director for Telit; Mat Hooover, CEO at Embedded Planet, and John Tuley Global Industrial & IoT Business Development for TE Connectivity’s Sensors Business Unit.
Join speakers Christian Koehler, Product Manager at TE Connectivity and Matthias Stege, Managing Director and Founder at Exelonix GmbH to discover how early design considerations, the selection of critical components and their well-tuned composition can affect the performance of the IoT devices significantly.
In this webinar, they will cover the following topics on how to help:
Join our IoT experts to discover how early design considerations and the selection of critical components can affect the performance of your fleet telematics ecosystem including: reduce costs and increase product efficiency, optimize operating efficiency, minimize connectivity performance loss, reduce design efforts and product design spins, and much more.