The optional battery pack provides three hours of operation. Its light weight and battery operation capability lets you take it anywhere to perform measurements. It fits into any workplace and leaves enough space for DUTs and other measurement instruments. The R&S® FPL1000 has a depth of only one hand length. Using the MultiView display mode, even different measurement modes can be combined and all the results can be displayed on one screen. Furthermore, the user can freely arrange the layout of the measurement results on the display. Two-finger gestures change the span or the displayed power level, while the 10.1" screen with 1280 × 800 pixel resolution provides a clear display of the signal. Simple swiping gestures adjust the center frequency or the reference level.
Using the R&S® FPL1000 is as intuitive as using a smartphone. Thanks to its high sensitivity and low phase noise performance, even small interfering signals next to the carrier can be analyzed. The preamplifier (R&S® FPL1-B22 option) extends the sensitivity level.The 1 dB attenuator step size (R&S® FPL1-B25 option) allows you to perform measurements at the instrument’s max.The solid RF performance makes the R&S® FPL1000 the ideal instrument for use in the lab, production and service. It supports not only spectrum analysis, but also highly accurate power measurement with power sensors and analysis of analog and digitally modulated signals. It is a single measuring instrument for a variety of measurement tasks. The high technical performance, many features and the integrated tracking generator makes this device ideal tools in industry, development, EMC diagnostic and quality assurance.In an RF lab, the R&S® FPL1000 is as indispensable as an oscilloscope or multimeter. Due to the high frequency bandwidth and dynamic, modern spectrum analyzers are superior in many measurement areas contrary to the use of oscilloscopes and therefore preferable for the application. This spectrum analyzer thus makes visible the individual spectral components with the corresponding amplitudes, which is making this device indispensable for the assessment and diagnosis of modern, high-frequency electronic systems. Spectrum analyzers are used to display the amplitude distribution over a certain frequency range. Digital Spectrum Analyzer 9 kHz ~ 1,5 GHz (incl.
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