Rohde & Schwarz FSWP26 Phase Noise Analyzer; 1 MHz to 26.5 GHz-rental
Rohde & Schwarz FSWP26 Phase Noise Analyzer; 1 MHz to 26.5 GHz-rental
The R&S FSWP phase noise analyzer and VCO tester combines extremely low-noise internal sources and cross-correlation technology, delivering extremely high sensitivity for phase noise measurements. As a result, it takes just seconds to measure even highly stable sources such as those found in radar applications. Additional options such as pulsed signal measurements, additive phase noise (including pulsed) characterization and integrated high-end signal and spectrum analysis make the analyzer a unique test instrument.
Fastest measurement speed
Save time and multiply measurement throughput
The internal R&S®FSWP sources enable measurement of highly sensitive oscillators such as DROs and OCXOs with a minimum number of cross correlations, saving considerable time. Adding hardware accelerated signal processing to the R&S®FSWP phase noise analyzer enables real-time phase noise measurements. Short measurement time is key since it speeds up the development to manufacturing process while increasing production throughput.
Unrivaled sensitivity
Highest sensitivity for phase and amplitude noise measurement
The R&S®FSWP internal local oscillator surpasses phase-noise performance of almost any signal generator available on the market. Thanks to the internal low‑noise analyzer sources, just a few correlations are needed to measure a high-quality oscillator. This allows for the fastest possible measurement times.
Highest flexibility
High-end phase noise analyzer and signal and spectrum analyzer in a single box
Users can examine the spectrum and demodulate the signal to measure EVM or pulse characteristics in different measurement channels. Designers of automatic test systems save space and money since they do not have to purchase an additional spectrum analyzer or vector signal analyzer. The R&S®FSWP is a future-proof investment. It is based on the high-end R&S®FSW with its unique RF performance and high sensitivity.