Generate higher-order MIMO scenarios with real-time fading

March 3, 2016

Munich, Germany. Equipped with the new R&S SMW-K75 option, the R&S SMW200A high-end vector signal generator from Rohde & Schwarz can generate complex scenarios of up to 4 x 8 or 8 x 4 MIMO as well as two MIMO systems with up to 4 x 4 MIMO. Multiple-input multiple-output transmission is used for a number of digital communications standards, including LTE, LTE-Advanced, and WLAN (802.11n, 802.11ac). The technology will likely also play a key role for 5G. The solution is therefore targeted at users working on research and development of base stations and wireless devices for the mobile communications market.

For this test solution, a single R&S SMW200A with its two integrated RF channels generates both the complete test signal (for example, LTE or WLAN) and the channel simulation with real-time fading. The additional RF channels needed in the setup are provided by ultra-compact R&S SGT100A RF sources from Rohde & Schwarz. As a result, a 2 x 4 x 4 MIMO receiver test setup with one R&S SMW200A and six R&S SGT100A requires less than one third of the space of other commercially available solutions and costs less. Users will also appreciate the easy operation. The entire test setup can be controlled via the signal generator.

Typical applications for the R&S SMW200A include the generation of LTE signals with 4 x 8 MIMO in the uplink or LTE carrier aggregation with two carriers and up to 4  x4 MIMO for each carrier in the downlink. The test solution can also be used to simulate signal scenarios with two cells for dual-cell LTE or for interference testing with two mobile devices that communicate simultaneously, each over their own MIMO channel.

www.rohde-schwarz.com/ad/press/smw-k75

About the Author

Rick Nelson | Contributing Editor

Rick is currently Contributing Technical Editor. He was Executive Editor for EE in 2011-2018. Previously he served on several publications, including EDN and Vision Systems Design, and has received awards for signed editorials from the American Society of Business Publication Editors. He began as a design engineer at General Electric and Litton Industries and earned a BSEE degree from Penn State.

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