419 Results
26-Jan-2021
R&S SMM100A vector signal generator redefines midrange signal generation for 5G, Wi-Fi 6E and much moreRohde & Schwarz introduces the R&S SMM100A, the only vector signal generator with mmWave testing capabilities in its class. The instrument meets the rigorous expectations for generating digital signals for the most advanced wireless communication devices entering production, as well as for developing future products and technologies.
This application note describes a test scenario tor cable components with an R&S®CLGD Cable Load Generator and an R&S®FSW Signal & Spectrum Analyzer.
24-Jan-2017 | AN-No. 1MA285
Generation and Analysis of ZigBee™ IEEE802.15.4 signals in the 2.4 GHz band
21-Jun-2007 | AN-No. RSI03
For efficient channel model evaluation, Rohde & Schwarz together with the Fraunhofer Heinrich Hertz Institute demonstrated a test setup for radio channel propagation measurements at 99 GHz at the LTE Innovation Summit 2015 in Del Mar, California.
The R&S®ZNL vector network analyzer offers a wide frequency range from 5 kHz to 3 or 6 GHz. The R&S®ZNL vector network analyzer offers a wide frequency range from 5 kHz to 3 or 6 GHz, an output power from –40 dBm all the way up to 0 dBm, and a wide dynamic range of typically up to 130 dB.
This video shows the generation and analysis of a 5G New Radio signal at 28 GHz using the R&S®SMW200A vector signal generator and R&S®FSW signal and spectrum analyzer.
R&S®ESMW超宽带监测接收机非常适用于应对未来的频谱监测发展趋势和挑战。设备覆盖的频率范围为8 kHz至40 GHz,并提供高达2 GHz的实时带宽。R&S®ESMW可以与R&S单通道测向天线配合使用,支持频率范围300 kHz至8.5 GHz的到达角(AoA)测向。R&S®ESMW具备符合ITU标准的优异射频性能和丰富功能,并采用模块化升级概念,能够在高度密集的环境中可靠地监测当前和未来的各种宽带信号。
Configuration The R&S FE External Frontends extend the frequency range of the RTP Oscilloscope up to 170 GHz. No additional equipment is needed for this compact and fully calibrated solution. Learn how easy it is to configure a external frontend directly by the RTP GUI. The R&S FE External Frontends extend the frequency range of the RTP Oscilloscope up to 170 GHz.
Rohde & Schwarz showcases 5G NR high quantity production testing for the sub 6 GHz (FR1) frequency range at GSMA MWC 2019. Rohde & Schwarz showcases 5G NR high quantity production testing for the sub 6 GHz (FR1) frequency range at GSMA MWC 2019. The R&S®CMW100 communication manufacturing test set enables simultaneous testing of multiple DUTs and is suitable for a variety of technologies such as 3G,
The ATS1000 simplifies the testing needs because no mechanical modification and no additional RF cabling is required to measure the amplitude and phase coherent response of an unknown DUT in the frequency range from 110 GHz to 170 GHz. 6G antenna measurements, 6G antenna radiation pattern, 6G antenna charactization in D-band, Phase coherent measurements up to 170 GHz The ATS1000 CATR based 5G NR mmWave
The R&S®AREG100A automotive radar echo generator is a versatile instrument for stimulating radars in the 24 GHz ISM band and in the 77 GHz and 79 GHz frequency bands.
23-Feb-2022
Rohde & Schwarz has won China Mobile's 2021 5G frequency scanner procurement projectRohde & Schwarz China and Zhuhai DingLi Corp., Ltd. have won the 2021 China Mobile centralized procurement project for 5G scanners. The R&S TSME6 drive test scanner has an ultracompact design and multiband, multitechnology support for simultaneous measurements. It scored a 70 % share of the project. This is the third consecutive China Mobile tender awarded to frequency scanners from Rohde & Schwarz. The R&S TSME6 has industry-leading features and performance, making it a reliable measurement intrument for the China Mobile 5G network deployment and optimization in the field.
03-Aug-2022
Rohde & Schwarz announces comprehensive test solutions for 5G NR Release 17The latest features included in 5G NR Release 17 are set to improve system performance and enable expansion into new applications. To address testing challenges in these latest demanding 5G standards, Rohde & Schwarz has introduced a comprehensive set of coordinated software options for its vector signal generators and signal and spectrum analyzers.
12-Jan-2021
Rohde & Schwarz presents new handheld vector network analyzer up to 26.5 GHzRohde & Schwarz now offers the R&S ZNH, a full two-port handheld vector network analyzer up to 26.5 GHz with cable and antenna analysis and full S-parameter measurements. Both of these functions are included free of charge. The R&S ZNH is user-friendly, easy to configure and has a compact fanless housing for field applications.
The low-noise frontend and 10 GHz single-core A/D converter are the foundation for the extraordinarily high measurement accuracy and dynamic range of the R&S®RTO oscilloscopes. The low-noise frontend and 10 GHz single-core A/D converter are the foundation for the extraordinarily high measurement accuracy and dynamic range of the R&S®RTO oscilloscopes.
Rohde & Schwarz together with the Fraunhofer Heinrich Hertz Institute demonstrated a test setup for radio channel propagation measurements at 39 GHz at the LTE Innovation Summit 2015 in Del Mar, California. The R&S®AFQ100A baseband generator and the R&S®SMW200A vector signal generator are used to generate a 39 GHz carrier frequency signal for the transmission.
Learn about key advantages of the R&S RTP ranging from 4 to 16 GHz bandwidth The R&S RTP is the most versatile multi-purpose oscilloscope.
Here we use two FE44S external frontends to test a 5G FR2 signal at 28 GHz. Signal analysis is performed by the R&S VSE software running directly on the RTP oscilloscope. The RTP oscilloscope can use up to 4 external frontends to acquire the respective IF signals for further analysis. Here we use two FE44S external frontends to test a 5G FR2 signal at 28 GHz.
Base station test, FR2, Frontends, FE50DTR THE R&S FE50DTR enables the up and down conversion of signals up to 50 GHz and results in higher sensitivity on the receiver path.
The simple test setup works from 27.5 GHz to 75 GHz making it ideal for 28 GHz pre-5G and WLAN 802.11ad and 11ay applications.
AC308R3 SHF/EHF Directional Antenna
Rohde & Schwarz presented mobile network testing solutions for the complete 5G lifecycle, covering sub-6 GHz and mmWave bands that enable the realisation of 5G NR as it moves from trial networks to commercial deployments at GSMA MWC2019.
The video explains the concept of synchronization signal blocks (SSB), how SSB beamforming works in sub 6 GHz and mmWave frequencies and how many different beams can be realized by the network infrastructure. Which 5G NR signal components need to be measured to determine network coverage?
Truly uncompromised in performance. Discover the R&S®RTE1000 oscilloscope (200 MHz to 2 GHz) - Poster