Precise measurements due to very low inherent More confidence noise The R&S®RTE was developed with the objective of mini- mizing noise, from matched BNC-compatible inputs with in measurement 18 GHz bandwidth to high-precision A/D converters and extremely low-noise frontends. At 1 GHz bandwidth and 1 mV/div input sensitivity, the R&S®RTE oscilloscopes have results a very low RMS noise of 100 µV, allowing precise mea- surements even at the smallest vertical resolutions. ❙ One million waveforms/sSingle-core A/D converter and up to 16-bit vertical ❙ Very low inherent noise of 100 µV at 1 mV/div andresolution1 GHz Rohde & Schwarz developed a monolithic A/D converter ❙ Full measurement bandwidth up to 2 GHz, even at for the R&S®RTE oscilloscopes. The chip’s single-core ar- 500 µV/div chitecture minimizes signal distortion and achieves more ❙ Up to 16-bit vertical resolution than seven effective bits over the entire frequency range. ❙ Memory up to 200 Msample With the low-noise frontend, this is the foundation for the ❙ Minimal trigger jitter < 1 ps oscilloscopes’ extraordinarily high measurement accuracy ❙ Trigger hysteresis can be adjusted to signal quality and dynamic range. Increasing the vertical resolution to up to 16 bit with the high definition mode (HD mode) makes even the smallest signal details visible. Full measurement bandwidth, even at 500 µV/div Thanks to very low-noise frontends, the R&S®RTE oscillo- scopes offer an input sensitivity down to 500 µV/div. This is unmatched on the market. Other oscilloscopes attain 1 mV/div sensitivity only by employing software-based zooming or by limiting the bandwidth. R&S®RTE oscillo- scopes, however, show a signal's real sampling points over the full measurement bandwidth, even at 500 µV/div sensi- tivity. This high measurement accuracy is particularly ben- eficial when measuring small signal amplitudes. Due to the high acquisition rate of one million waveforms per second, R&S®RTE oscilloscopes find rare signal faults very quickly. 4 RTE_bro_en_3606-9033-12_v1400.indd 4 11.06.2018 14:09:33