The Q/V band offers larger bandwidths for feeder links to satellites, making it ideal for the implementation of upcoming data links with high bit rates. This includes future communications and cellular backhaul networks that can provide end users with large volumes of data. Operators of conventional geostationary satellites as well as LEO satellites in the new space environment are discovering the advantages of these new satellite bands.
High demands are placed on microwave components in the Q/V band, which means they must undergo extensive testing during development and verification. Amplifiers, converters, receiver modules and complete satellite payloads are just a few examples of components that have to be tested in the Q/V band. Especially for satellite payloads, test equipment must meet very high requirements for signal quality. Together with the R&S SMW200A vector signal generator, the R&S SZV100A Q/V band RF upconverter provides continuous coverage of all satellite bands from VHF to V band as well as the frequency bands for 5G in the Q/V band.
The test setup consists of the R&S SMW200A vector signal generator, the R&S SMA100B RF and microwave signal generator, and the R&S SZV100A Q/V band RF upconverter. With its outstanding RF performance, the R&S SMW200A delivers the modulated broadband IF signal with bandwidths up to 2 GHz, while the R&S SMA100B provides the high-precision LO signal. The maximum output power of the R&S SZV100A is as high as +16 dBm (at 1 dB compression point).
The compact housing design, low weight and mounting points of the R&S SZV100A allow mounting as close as possible to the DUT, for example on the outside of a thermal vacuum chamber (TVAC). The distance between the IF source or LO source and the R&S SZV100A can be as much as 10 meters, allowing an optimized test setup.