1519 Results
10-Feb-2022
Rohde & Schwarz presents the new R&S CMX500 one-box tester, a powerful 5G test platform for simplified device testingRohde & Schwarz eliminates the complexities of 5G NR device testing by combining ease-of-use and superior performance in a single instrument. With its new one-box tester approach, the R&S CMX500 5G radio communication tester enables even complex test setups for all 5G NR deployments, supporting a large variety of the present and future 3GPP band combinations. The simplified setup in a single easy-to-use test platform results in an extremely small footprint in the lab.
11-Jul-2022
Rohde & Schwarz showcases its market-leading, reliable EMC test solutions at EMV in CologneAt the EMC event EMV in Cologne, Rohde & Schwarz demonstrates a comprehensive range of EMC test and measurement solutions – ranging from standalone instruments and software to application-specific systems. As a highlight, the company unveils an important enhancement to the R&S ESW EMI test receiver, the new 1GHz bandwidth extension. The Rohde & Schwarz solutions are on display from July 12 to 14, 2022 at the Cologne exhibition center, hall 10.2, booth 112.
17-Dec-2020
Rohde & Schwarz and IHP first to characterize D-band frequencies in over-the-air test setup for 6G and automotive radarAcademia and key industry players have identified the D-Band, ranging from 110 GHz to 170 GHz, as a candidate frequency band for beyond 5G and 6G mobile communications as well as for future automotive radar applications. Rohde & Schwarz continues its pioneering sub-THz research efforts with focus in this frequency range, reaching new milestones. In collaboration with IHP, Rohde & Schwarz has performed the industry’s first full 2D/3D antenna characterization of transceiver modules operating in the D-Band.
06-Nov-2019
Rohde & Schwarz together with Fraunhofer Institutes HHI and IAF join forces in researching 6G at THz frequenciesWhile the new 5G technology is at the first stages of rollout, Rohde & Schwarz, the Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute, HHI and the Fraunhofer Institute for Applied Solid State Physics IAF are taking a step further with demonstrations in the terahertz (THz) frequency band, related to the 6th generation wireless mobile communication (6G). The collaboration has resulted in a wireless transmit and receive system operating between 270 and 320 GHz, with further frequency extensions for potential 6G bands already in preparation.
18-Jul-2023
Rohde & Schwarz demonstrates high reliability and innovative technology at IBC2023Rohde & Schwarz demonstrates high reliability and innovation power - Enabling new broadcast business models and continuous development in media solutions deliver substantial customer value
14-Feb-2022
Unlimited connectivity made real – Rohde & Schwarz exhibits its unique mobile test solutions at MWC Barcelona 2022Leveraging years of experience and exceptional insight in the entire mobile industry, Rohde & Schwarz is ready to present its comprehensive, leading-edge portfolio of mobile and wireless communications testing solutions at Mobile World Congress 2022 in Barcelona.
RTB2000の特長をご紹介 エントリークラスであるR&S RTB2000 デジタル・オシロスコープの特長をご紹介します。 エントリークラスであるR&S RTB2000 デジタル・オシロスコープの特長をご紹介します。 RTB2000の特長をご紹介
オシロスコープの仕様として重要となる周波数帯域幅について解説いたします。 オシロスコープの仕様として重要となる周波数帯域幅について解説いたします。正しく波形を見れなかった場合にどう見えるかなど、実機を用いてご説明しています。 オシロスコープの仕様として重要となる周波数帯域幅について解説いたします。
ネットワーク経由での操作をご紹介 エントリークラスのオシロスコープ R&S RTB2000シリーズの、PCと接続した場合の操作について解説します。 エントリークラスのオシロスコープ R&S RTB2000シリーズの、PCと接続した場合の操作について解説します。 ネットワーク経由での操作をご紹介
プロトコルトリガ&デコード機能をご紹介 : エントリークラスであるR&S RTB2000デジタル・オシロスコープのシリアルバスの解析をご紹介します。 : エントリークラスであるR&S RTB2000デジタル・オシロスコープのシリアルバスの解析をご紹介します。 プロトコルトリガ&デコード機能をご紹介
タッチディスプレイなどの操作性をご紹介 エントリークラスであるR&S RTB2000デジタル・オシロスコープの快適な操作性をご紹介させていただきます。 エントリークラスであるR&S RTB2000デジタル・オシロスコープの快適な操作性をご紹介させていただきます。 タッチディスプレイなどの操作性をご紹介
Key facts Bandwidth: 200 MHz - 1.5 GHz World’s first oscilloscope with an update rate > 4.5 million waveforms per second Industry-leading system architecture: 18-bit vertical resolution/12-bit ADC Deepest in class standard memory: 400 Mpoints Industry leading spectrum acquisition rate of 45,000 FFT/s R&S®MXO 4 Oscilloscope
To satisfy the need for higher modulation bandwidths, the R&S®SMBV100B is equipped with a high performance baseband. To satisfy the need for higher modulation bandwidths, the R&S®SMBV100B is equipped with a high performance baseband. With the intelligent realtime frequency response correction, amplitude flatness of < 0.3 dB is achieved across the entire bandwidth. R&S®SMBV100B 500 MHz modulation bandwidth
The RSSI monitor in R&S®AVQA provides a great opportunity for long-term signal and noise monitoring of the radio infrastructure. Using the flags in the ED-137 voice stream, R&S®AVQA non-intrusively analyzes the RSSI level. Based on the squelch information, R&S®AVQA automatically differs between the signal and noise and reports this accordingly. The RSSI monitor in R&S®AVQA provides a great opportunity
Realizing the full potential of UWB with smart testing 이번 웹세미나는 매우 넓은 주파수 대역에서 데이터를 전송하는 무선 통신 기술인 UWB 기술을 간단히 소개하고, 이에 대한 다양한 측정 방법에 대해 말씀 드립니다. 최근에는 UWB 기기들이 단순한 RF Tx, Rx 측정뿐만 아니라 ToF(Time of Flight)와 AoA(Angle of Arrival) 항목에 대한 측정도 지원해야 하는 추세입니다. ToF는 신호가 발신지에서 수신지까지 도달하는 데 걸리는 시간을 의미하며, AoA는 도착하는 신호의 방향을 말합니다. 이러한 요구 사항에 맞춰, Rohde & Schwarz는 UWB의 모든 항목들에 대한 Calibration 및 Verification을 지원하고 있습니다
Learn more about upcoming applications and test equipment to ensure the performance of 5G mobile devices featuring high-accuracy positioning. 5G promises high-accuracy positioning in the sub-meter range. One way to achieve this in outdoor environments is via the close integration of high-accuracy GNSS technologies such as RTK and PPP in 5G. This webinar presents the working principle of high-accuracy
Cellular device testing One part of 5G certification testing is taking care of Radio Resource Management, called RRM. In FR2 all the tests have to be done over the air. A special setup of testing is given in the 3GPP specification where the right behaviour of a device under tests is checked while receiving the signals from the base station under different angels. The big challenge for a test solution