industry news
Subscribe Now

Evolved for more challenges: Rohde & Schwarz adds eight-channel R&S MXO 5 to next-generation oscilloscopes

With the all-new R&S MXO 5, Rohde & Schwarz continues to evolve its series of next-generation oscilloscopes, started with the successful R&S MXO 4 in 2022. The R&S MXO 5 is the company’s first eight-channel oscilloscope. It expands upon the industry-firsts pioneered by the R&S MXO 4 and will empower engineers to tackle even more demanding design challenges.

Rohde & Schwarz presents its new R&S MXO 5 oscilloscopes, available with four or eight channels. Building on next-generation MXO-EP processing ASIC technology developed by Rohde & Schwarz and introduced with the R&S MXO 4, the new eight-channel R&S MXO 5 oscilloscopes take measurement performance to the next level.

Industry firsts in an eight-channel oscilloscope
The new R&S MXO 5 shows more of a signal’s activity in both the time and the frequency domains than any other oscilloscope. The R&S MXO 5 is the world’s first eight-channel oscilloscope with 4.5 million acquisitions per second and 18 million waveforms per second across multiple channels. Engineers can capture intricate signal details and infrequent events with exceptional precision. The R&S MXO 5 has digital triggering on all eight channels to surpass its competitors in the accurate isolation of small signal anomalies. The groundbreaking capability of 45 000 FFTs per second provides engineers with unparalleled spectrum signal viewing, particularly for EMI and harmonic testing.

By capturing up to 99% of real-time signal activity with the fastest acquisition capture rate in the world, the R&S MXO 5 speeds up signal analysis while detecting rare and random events missed by most other oscilloscopes. The features let engineers debug designs more efficiently across multiple applications – from power conversion to automotive analysis – making power and signal integrity measurements as well as logic and bus protocol debugging a breeze.

Philip Diegmann, Vice President of Oscilloscopes at Rohde & Schwarz, says: “Launching the R&S MXO 4 in 2022 introduced the next generation of oscilloscopes with unmatched performance and value. At Rohde & Schwarz, we continue to evolve the usability of our oscilloscopes to new levels. Today, we are excited to introduce the R&S MXO 5, continuing our legacy of oscilloscope excellence. Building on the same engineering breakthroughs, this oscilloscope series was meticulously designed by our dedicated development team to capture both the big picture and smallest details of electrical signals with unparalleled accuracy and speed. Evolved for more challenges, the scopes will speed up our customers’ understanding and testing of their electronic systems.”

Deepest-in-class standard memory
The R&S MXO 5 series offers standard simultaneous acquisition memory of 500 Mpoints across all eight channels or double the standard memory of the competition. The ample storage can be used for extensive data capture. Furthermore, a memory extension option can double the recording length to 1 Gpoints for the most demanding applications. The exceptional memory depth in the R&S MXO 5 oscilloscope is critical for a wide range of troubleshooting tasks, enabling the capture of extended periods of time and retaining accurate bandwidth information even with slower time base settings.

First digital trigger for eight channels
As the first eight-channel oscilloscope with digital triggering, the R&S MXO 5 sets a new standard in signal analysis. The digital trigger outperforms all other oscilloscope triggers with a remarkable sensitivity of 0.0001 div. The sensitivity helps precisely isolate small physical layer anomalies, even when large signals are present. No other instrument on the market can match this trigger sensitivity. Other instruments often require signal processing corrections to align analog path trigger events, resulting in a slower and noisier trigger performance. The digital trigger seamlessly complements the 18-bit vertical architecture in the oscilloscopes, so that engineers can fully leverage the precision of the R&S MXO 5.

Superior RF measurement
The R&S MXO 5 excels in RF measurements, both in the time and frequency domains. It is the first oscilloscope with 45 000 FFTs (Fast Fourier Transforms) per second. The exceptional speed, combined with the ability to simultaneously display four different time-independent spectra provides engineers with outstanding RF signal visibility unmatched in its class. The advanced capabilities are standard R&S MXO 5 features.

Evolved user experience
An unparalleled large 15.6″ full-HD capacitive touchscreen and an intuitive user interface optimize the learning curve and give R&S MXO 5 oscilloscopes a seamless and engaging visual experience. The small footprint and first-in-class VESA mounting make the oscilloscopes ideal for any engineering workspace. The R&S MXO 5 has industry’s lowest audible noise level that is quieter than a whisper for a focused lab environment where engineers can perform their tasks precisely.

Low starting price
The R&S MXO 5 oscilloscopes are available in four and eight-channel models, in bandwidth ranges with100 MHz, 200 MHz, 350 MHz, 500 MHz, 1 GHz, and 2 GHz models. The eight-channel models start as low as EUR 19 500, the industry’s lowest entry price in this instrument class. Various upgrade options are available to users with demanding application needs, such as 16 digital channels with a mixed-signal oscilloscope (MSO) option, an integrated dual-channel 100 MHz arbitrary generator, protocol decode and triggering options for industry-standard buses and a frequency response analyzer to enhance the capabilities of the instrument.

The new R&S MXO 5 series oscilloscopes are now available from Rohde & Schwarz and selected distribution channel partners. Rohde & Schwarz will demonstrate the new R&S MXO 5 at productronica 2023 in Munich in hall A1.375 from November 14 to 17, 2023. For more information on the instrument, go to: https://www.rohde-schwarz.com/product/MXO5

Leave a Reply

featured blogs
Mar 4, 2024
The current level of computing power is unprecedented. It has led to the development of advanced computational techniques that enable us to simulate larger systems and predict complex phenomena with greater accuracy. However, the simulation of turbomachinery systems still pos...
Mar 1, 2024
Explore standards development and functional safety requirements with Jyotika Athavale, IEEE senior member and Senior Director of Silicon Lifecycle Management.The post Q&A With Jyotika Athavale, IEEE Champion, on Advancing Standards Development Worldwide appeared first ...
Feb 28, 2024
Would it be better to ride the railways on people-powered rail bikes, or travel to the edge of space in a luxury lounge hoisted by a gigantic balloon?...

featured video

Tackling Challenges in 3DHI Microelectronics for Aerospace, Government, and Defense

Sponsored by Synopsys

Aerospace, Government, and Defense industry experts discuss the complexities of 3DHI for technological, manufacturing, & economic intricacies, as well as security, reliability, and safety challenges & solutions. Explore DARPA’s NGMM plan for the 3DHI R&D ecosystem.

Learn more about Synopsys Aerospace and Government Solutions

featured paper

Reduce 3D IC design complexity with early package assembly verification

Sponsored by Siemens Digital Industries Software

Uncover the unique challenges, along with the latest Calibre verification solutions, for 3D IC design in this new technical paper. As 2.5D and 3D ICs redefine the possibilities of semiconductor design, discover how Siemens is leading the way in verifying complex multi-dimensional systems, while shifting verification left to do so earlier in the design process.

Click here to read more

featured chalk talk

Enabling the Evolution of E-mobility for Your Applications
The next generation of electric vehicles, including trucks, buses, construction and recreational vehicles will need connectivity solutions that are modular, scalable, high performance, and can operate in harsh environments. In this episode of Chalk Talk, Amelia Dalton and Daniel Domke from TE Connectivity examine design considerations for next generation e-mobility applications and the benefits that TE Connectivity’s PowerTube HVP-HD Connector Series bring to these designs.
Feb 28, 2024
611 views