Qualcomm connects the unconnected with new range of IoT devices
Qualcomm Technologies has extended its support for the IoT ecosystem by introducing seven new solutions to help enable the proliferation of next-generation IoT devices.
These solutions range from entry-level to premium tier to expand access to a variety of industrial and commercial applications. These latest IoT solutions from Qualcomm Technologies are purpose-built to help meet the needs of the expanding IoT ecosystem for key segments including transportation and logistics, warehousing, video collaboration, smart cameras, retail, healthcare and more.
“These new IoT solutions further exemplify our commitment to driving global digital transformation and providing a portfolio of solutions to transform industrial and enterprise IoT applications to achieve cutting edge performance and seamless connectivity,” commented Jeff Lorbeck, Senior Vice President and General Manager of Connected Smart Systems at Qualcomm Technologies, Inc.
Relevant to readers of Logistics Manager is the Qualcomm QCS6490/QCM6490, with target applications including logistics management, retail, transportation, and warehousing.
The Qualcomm QCS6490 and Qualcomm QCM6490 are the company’s first optimised IoT solutions built to deliver premium-tier features including global 5G connectivity and fast Wi-Fi 6E for high-tier IoT devices. With the Kryo 670 CPU architecture this solution delivers powerful performance and is purpose-built for industrial and commercial IoT applications such as transportation, warehousing, connected healthcare, logistics management and across retail point of sale (POS) kiosks. Equipped to support 5G mmWave/Sub-6 GHz and Wi-Fi 6E, this solution helps enable the latest generation of ruggedised handhelds and tablets, industrial scanners, and human machine interface systems. Through powerful connections, reduced latency, along with dynamic triple ISPs and advanced Edge-AI and compute based on 6th generation Qualcomm AI Engine, this solution delivers astonishing performance at reduced power compared to previous generation solutions.