A first successful demonstration of a 5G New Radio (NR) IP data transfer call has been announced by Keysight Technologies using MediaTek's Helio M70 Multi-Mode Modem with integrated baseband. The demonstration used MediaTek’s multi-mode modem Helio M70 and Keysight's 5G network emulation solution to achieve the theoretical maximal throughput rate over 100MHz NR bandwidth, for both Non-Standalone (NSA) and Standalone (SA) modes.
These high-level data rates are needed to deliver enhanced Mobile Broadband (eMBB) for applications such as virtual reality, augmented reality, and ultra-high-definition video streaming.
"MediaTek's active development of 5G technology is bringing reliable and fast broadband to consumers around the world," said JS Pan, general manager at MediaTek. "The joint demonstration with Keysight highlights another pivotal step forward for the rollout of 5G. Device manufacturers working with us can integrate multi-mode modems into their designs and accelerate the delivery of 5G NR mobile devices to the market."
Keysight's 5G network emulation solutions leverage the company's UXM 5G wireless test platform to support mobile device verification and certification across radio frequency (RF), radio resource management (RRM) and protocol.
This compact solution addresses the entire device development workflow from early design to acceptance and manufacturing.
MediaTek's Helio M70, compliant to the latest 3GPP Rel-15 standards, is currently the industry's only 5G modem with LTE and 5G dual connectivity (EN-DC) and multi-mode support for every cellular connectivity generation from 2G to 5G. Helio M70 is designed to meet essential carrier features like HPUE support.
"Keysight is enabling global mobile ecosystems to accelerate 5G deployment," said Steve Yan, Vice President and General Manager of Greater China at Keysight Technologies. "By establishing the 5G NR data call using a multi-mode modem, we're illustrating Keysight's ability to support customers targeting early rollout of exciting new use cases that rely on wireless broadband data transfer speeds."