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An entire mmWave converter system consists of radio frequency (RF) components for transmitting and receiving signals, analogue components for clocking, and digital components for analog-to-digital converters (ADCs), microcontrollers (MCUs), and digital signal processors (DSPs).
These systems have typically been built using separate components, which raised power usage and system costs. Because of the intricacy and high frequency, system design is difficult.
The Global millimeter wave converters market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The E and W band between 60 and 90GHz and 75 to 110GHz can be used for millimeter wave measurements using the R&SZVA-Zxx millimeter-wave converters.
Converters made by Rohde & Schwarz feature a wide dynamic range, are incredibly easy to use, and allow for quick measurements. Two converters, a four-port network analyzer, and the R&SZVA can all be used to do two-port measurements without the use of an external generator. An external generator is needed to supply LO signals to a two-port network analyzer. With no external signal generator, the R&SZNA may connect up to four converters.
Important characteristics include: Electronic power regulation; Multiport and genuine differential measurements; Variable output power; Automatic parameter adjustment; Convenient handling.
For ease of use, the converter waveguide connectors are positioned on a bar that extends from the converter. It is simple to attach the DUT and calibrate the screwed flange joints. There may be three or four height-adjustable feet on the converters. The test port flange is much easier to position with three feet. In areas where particles are a concern, the converters’ lack of fans is a significant benefit.