98 Results
RTE/RTO/RTP - export of the history into one file with remote commands
Scaling of frequency measurements RTE, RTO, RTP in cycles/min
Rohde & Schwarz "Getting Started" for R&S RTE digital oscilloscopes.
RTE/RTO/RTP: Measurement of the level at a designated frequency in FFT with remote commands.
The R&S®RTE: Simply more scope. Quickly master everyday T&M challenges. Look at the video and learn more about the R&S®RTE oscilloscope from Rohde & Schwarz. RTE Product video, RTE, Oscilloscope, Tutorial Video, Rohde & Schwarz Look at the video and learn more about the R&S®RTE oscilloscope from Rohde & Schwarz.
Correlated time-frequency measurements help optimize gate driving and minimize electromagnetic emissions early on during development.
22-Nov-2018
RTE/RTO/RTP-B6: Output of a single waveform in single mode with remote commands RTE/RTO/RTP-B6 single waveform RTE/RTO/RTP-B6: Output of a single waveform in single mode with remote commands RTE/RTO/RTP-B6 single waveform Related Products
When I use the zoom function to look at the rising edge of a rectangle signal, I see ringing which is not real, see screenshot. What is the reason?
I am using the ultra segmentation mode to minimize the blind time. But this is not indicated. Is there a way to calculate it?
Measuring RDS(on) with high-definition oscilloscopes - Application Brochure
19-Mar-2015
A sinus signal with i.e. 10 V peak-peak, frequency 1 MHz is applied. If I choose a vertical scale which is too small the peaks of the waveform are not displayed as they are out of range. Now I activate the digital filter in the “Vertical” menu à “Channel”. The frequency of the filter is also set to 1 MHz. Now even at very small vertical scales (i.e. 50 mV/div) the waveform is displayed completely, see screenshot. But the amplitude can not be correct. What goes wrong here?
Verifying power integrity for DDR memories - The R&S ® RT-ZPR20 power rail probe is a specialized oscilloscope probe for very low-noise measurements on power.
05-Apr-2017
The application fields of oscilloscopes extend to EMI debugging because of their powerful and easy-to-use FFT analysis capabilities– and save time and money.
23-Sep-2019
Accuracy of RMS Measurements
RTE, Oscilloscope, Tutorial Video, Rohde & Schwarz Basic introduction to the operation of the toolbar functionality.
RTE, Oscilloscope, Tutorial Video, Rohde & Schwarz Basic introduction to the operation of the zoom functionality.
RTE, Oscilloscope, Tutorial Video, Rohde & Schwarz Basic introduction to the operation of the histogram functionality.
RTE, Oscilloscope, Tutorial Video, Rohde & Schwarz Basic introduction to the operation of the FFT functionality.
Volume Adjustment of the "BEEP"
RTE, Oscilloscope, Tutorial Video, Rohde & Schwarz Basic introduction to the operation of the mask test functionality.
RTE, Oscilloscope, Tutorial Video, Rohde & Schwarz Basic introduction to the operation of the smart grid functionality.
Export of analog and digital channels of the same acquistion
FAQ - Decoding of SENT protocoll shows CRC errors
Connection of R&S ScopeSuite to RTO/RTP fails
We want to measure the voltage of the main line with our oscilloscope.
When I do RMS measurements and an offset is applied, the result changes. I could not see that effect on other scopes. What is wrong here?
The Rohde & Schwarz option K65, SpaceWire trigger & decode, for R&S®RTE and R&S®RTO offers triggering and decoding of SpaceWire protocol communication. Video, RTO2000, Oscilloscope, SpaceWire Triggering & Decoding The Rohde & Schwarz option K65, SpaceWire trigger & decode, for R&S®RTE and R&S®RTO offers triggering and decoding of SpaceWire protocol communication.
The R&S®RTE and R&S®RTO oscilloscopes can measure currents down to 100 uA using their low noise and high-sensitivity current probe. Video, RTO2000, Oscilloscope, Measurement of very small currents The R&S®RTE and R&S®RTO oscilloscopes can measure currents down to 100 uA using their low noise and high-sensitivity current probe.
I have exported the waveform into a csv file. When I open the file in Excel, the values are completely wrong. How can I get correct values?
I have compared passive and active probes. It seems that the noise with active probes is higher. What is the reason and what can I do to reduce the noise?