Using Keysight’s 6G Vector Component Analysis (VCA) solution, this is the latest collaboration between the two in what has been a long-time research relationship.
The collaboration has supported the University of Stuttgart in establishing Crosslink, a versatile multiplexing platform for synchronous time-and frequency-domain analyses of ultra-broadband communication channels.
The Keysight VCA solution supports Crosslink by integrating sub-terahertz (sub-THz) vector network analysis with wideband modulation capabilities. This combined capability enables radio frequency (RF) component characterisation under full complex modulated conditions. The result is industry-first, best-in-class noise and linearity performance for analysis of wideband, high-frequency modulated performance of components, circuits, and transceivers.
By using VCA, researchers can make significant leaps in the development of the next-generation amplifiers, filters, antenna systems, components, and the channel modelling and sounding needed for 6G networks.
The Keysight VCA measurement solution used for Crosslink integrates an N5245B PNA-X Microwave Network Analyzer, an M8199A Arbitrary Waveform Generator (AWG), broadband modulation distortion vector network analyser (VNA) application software, and vector signal analysis (VSA) software with Virginia Diodes (VDI) frequency extenders up to 330 GHz.
The collaboration supports a large-scale equipment initiative funded by the German Research Foundation (DFG). The initiative aims to prepare for a future of massive data rate increases, new types of electro-optical fibre and wireless communication systems, and the possible use of sub-THz radio frequency bands.
It supports the industry's vision of rolling out sustainable, agile, low latency and high-speed 6G wireless communication networks through the development of energy-efficient, next-generation ICs.
Commenting University of Stuttgart Professor Ingmar Kallfass said, "In collaboration with Keysight, we're creating an innovative measurement platform that covers a large variety of measurement configurations that lets us evaluate the suitability of ultra-wideband channels for wireless THz communications."
Giampaolo Tardioli, Vice President for Keysight's 6G and Next Generation programme, added that this cutting-edge research was advancing sub-THz technology and shaping the future of digital technology and driving innovation.
“By playing an active role in accelerating 6G research, we're helping the wireless industry in Europe and other regions achieve competitive technological proficiency, essential in attaining economic prosperity," he said.