Keysight Technologies to Help Accelerate Deployment of IoT Technology Using Qualcomm™ Technologies' LTE IoT Modems
Keysight Technologies, Inc. (NYSE: KEYS) announced their plan to help accelerate the deployment of Internet of Things (IoT) technologies. IoT capabilities is expected to help connect billions of devices with applications—such as smart homes, connected cars, healthcare and smart cities; as well as industrial applications, including energy systems, agriculture and transportation.
Device manufacturers are now able to verify that their Cat M1 capable products comply with a North American carrier's Cat M1 focused Test Plan by using the Keysight Anite SAS Interoperability Test Solution (SAS). The carrier validated the Test Plan following successful execution of test cases using the leading carrier acceptance solution SAS, as well as a device equipped with Qualcomm Technologies' MDM9206 LTE IoT modem. Cat M1 is an IoT-centric variety of LTE that uses 1.4 MHz of spectrum to deliver 300 kbps to 400 kbps.
Keysight offers designers the ability to optimize IoT designs for critical performance attributes such as power consumption, RF performance and interoperability, by simulating the real world in the lab using the Keysight UXM. The UXM is the world's first wireless test set to demonstrate connectivity with an NB-IoT device that complies to the NB-IoT standards. NB-IoT is a standards-based low-power wide-area technology developed to enable a wide range of new IoT devices and services.
"Keysight's ability to support Cat M1 and NB-IoT technology using Qualcomm Technologies' LTE IoT modems has resulted in IoT industry leading design and test solutions," said Giampaolo Tardiolo, senior director for Chipset Mobile Test at Keysight Technologies. "These solutions help customers bring reliable IoT enabled devices to market more quickly."
More information about Keysight's UXM wireless test set is available at www.keysight.com/find/UXM.
Company profile: Keysight Technologies
|© "Test & Measuring Instruments and Systems" ("KIPiS"), 2000-2017|