CW is experiencing website issues

Friday 20 September: Please phone the office if your event registration does not work as expected: 01223 967101

Agilent Technologies Introduces World’s Fastest Real-Time Oscilloscopes with 63-GHz True Analog Bandwidth

Published by Keysight Technologies

SANTA CLARA, Calif., April 11, 2012 – Agilent Technologies Inc. (NYSE: A) today introduced Infiniium 90000 Q-Series oscilloscopes with industry-leading, real-time bandwidth of 63 GHz on two channels and 33 GHz on four channels.

SANTA CLARA, Calif., April 11, 2012 – Agilent Technologies Inc. (NYSE: A) today introduced Infiniium 90000 Q-Series oscilloscopes with industry-leading, real-time bandwidth of 63 GHz on two channels and 33 GHz on four channels. The new lineup includes 10 four-channel models ranging from 20 GHz to 63 GHz, all of which are bandwidth upgradeable. These new scopes deliver the lowest noise and have the lowest jitter measurement floor in the oscilloscope industry, ensuring superior measurement accuracy.

“The 90000 Q-Series represents another breakthrough for Agilent Infiniium oscilloscopes,” said Jay Alexander, vice president and general manager of Agilent’s Oscilloscope Products Division. “In the last five years, we have introduced oscilloscopes with the deepest memory, the lowest noise floor and the highest bandwidth. The 90000 Q-Series is the culmination of all these innovations, and it features all three industry-leading characteristics to help engineers design and validate devices that use emerging technologies.”

At its maximum bandwidth the Q-Series breaks the 60-GHz barrier, with a -3 dB point of 63 GHz. The 33-GHz model allows engineers to simultaneously trigger on and capture signals on all four channels with no compromise. These two specifications allow the oscilloscopes to make measurements on devices designed to conform to emerging standards. Key capabilities include:

o Direct digitization of M-band signals (60 GHz to 100 GHz).

o Capture of the third harmonic on 28-, 32- and 40-Gbps digital signals.

o Analysis of IEEE 802.3ba 40/100/400-GbE and Optical Internetworking Forum CEI 3.0 signals.

o Measurement of up to four differential channels in a single acquisition for unraveling difficult cross-talk problems.

o Direct measurement of voltage swings larger than 1V when high-bandwidth and general-purpose measurements need to be made with the same instrument.

Evaluation units have already been generating positive feedback indicating this technology development will lead to breakthrough ideas and concepts.

“Based on early prototypes from Agilent that we were able to use for initial testing, our team progressed toward taking the next steps in high-data-rate coherent detection research,” said Dr. Peter Winzer of Bell Labs.

The 90000 Q-Series improves upon Agilent’s use of custom integrated circuits and multichip module packaging with an exclusive new technology called RealEdge. RealEdge comprises a combination of new architectures, next-generation microcircuits and thin-film components, and advanced application of Agilent’s indium phosphide semiconductor process. This new technology enables high-frequency capability while maintaining the industry’s lowest noise and jitter measurement floor (75 fs).

The 90000 Q-Series allows engineers to take advantage of many years of industry-leading hardware and software advancements in Agilent’s Infiniium oscilloscopes. These advancements include seamless integration of elements such as:

o Agilent’s flexible and innovative InfiniiMax III probing technology for bandwidths up to 30 GHz.

o Compatibility with more than 40 measurement-specific application packages, including jitter, triggering, measurement, analysis tools and full compliance certification test suites.

o The ability to join multiple Q-Series oscilloscopes together using Agilent’s exclusive software to form a system of 40 channels or more.

o Breakthrough InfiniiView software, which lets engineers analyze data using oscilloscope software on a PC or laptop instead of tying up the instrument for analysis.

o N2807A PrecisionProbe Advanced software, which helps engineers characterize and correct for cables to the full 63 GHz.

The new Infiniium 90000 Q-Series oscilloscopes depict digital edges more accurately than competitive oscilloscopes, thanks in large part to its low intrinsic jitter and noise floor. This increased measurement accuracy returns critical design margin to engineers. The 90000 Q-Series features the following industry-leading specifications:

o Rise time (<7 ps).

o Noise floor (4.4 mV at 50 mV/div, 63 GHz).

o Jitter measurement floor (~75 femtoseconds).
Additional information on Agilent’s new Infiniium 90000 Q-Series oscilloscopes and the company’s complete line of oscilloscopes is available at www.agilent.com/find/90000Q-Series. Product images are available at www.agilent.com/find/90000Q_images.

Editorial contact: Sarah Calnan, Agilent Technologies
Tel: +44 (0)118 9275 101
Email: sarah_calnan@agilent.com

Release date: 11th April 2012

Release number: PREM12021

Readers inquiries: For UK
Tel: 0118 927 6201
Fax: 0118 927 6855
Email: contactcenter_uk@agilent.com
Web: www.agilent.co.uk

For Ireland
Tel: 1890 924204
Fax: 1890 924024
Email: contactcenter_Ireland@agilent.com
Web: www.agilent.ie

About Agilent Technologies
Agilent Technologies Inc. (NYSE: A) is the world’s premier measurement company and a technology leader in chemical analysis, life sciences, electronics and communications. The company’s 18,700 employees serve customers in more than 100 countries. Agilent had net revenues of $6.6 billion in fiscal 2011. Information about Agilent is available at www.agilent.com.

NOTE TO EDITORS: Further technology, corporate citizenship and executive news is available at www.agilent.com/go/news.

Agilent Techologies UK Ltd
610 Wharfedale Road
Winnersh Triangle
Wokingham
Berkshire
RG41 5TP


Subscribe to the CW newsletter

This site uses cookies.

We use cookies to help us to improve our site and they enable us to deliver the best possible service and customer experience. By clicking accept or continuing to use this site you are agreeing to our cookies policy. Learn more

Start typing and press enter or the magnifying glass to search