Engineers and developers use MSOs to accelerate testing by employing the additional trigger flexibility for debugging and validating their devices.
The tightly integrated digital channels of the new MSO models can function at 20 GSa/s in an eight-channel configuration, 60 percent faster than other high-performance MSOs, or at 10 GSa/s in a 16-channel configuration. Agilent now offers MSOs ranging from 70 MHz to 33 GHz of analog bandwidth.
The new 13-GHz DSO, DSA and MSO models give engineers access to the industry’s lowest noise and jitter measurement floors of the Infiniium 90000 X-Series at an unprecedented low price.
“As system speeds have increased, it has become clear that additional digital channels, with performance appropriate to the analog scope bandwidth, would mark the next breakthrough in insight for our customers,” said Jay Alexander, vice president and general manager of Agilent’s Oscilloscope Products Division. “Pairing the world’s fastest MSO with up to 33 GHz of true analog bandwidth allows engineers to accurately debug and validate emerging technologies such as DDR4-3200.”
With the Agilent Infiniium 90000 X-Series, current and future customers who purchase DSO or DSA model oscilloscopes can upgrade to MSO functionality. Most high-speed MSOs available today come with fixed configurations that cannot be upgraded. Agilent’s N2834A upgrades let users add MSO capability at any time. This capability, along with Agilent’s existing bandwidth and memory upgrades, makes the X-Series one of the most flexible and expandable platforms on the market.
Unlike other MSOs, Agilent Infiniium 90000 X-Series MSOs have up to 400 million points of data capture behind each digital channel. To accommodate sample-rate differences between the high-speed analog channels and the digital MSO channels, this memory depth can be automatically sized with the analog trace length, including the full 2-Gpts memory available on Agilent oscilloscopes. This memory depth allows for fully time-correlated capture of elusive events that span a long time record.
Very fast memory channels, such as DDR3, often have complex signal qualification conditions that can elude even the most adept engineer. Agilent has added a special DDR triggering mode to the new MSOs to perform read/write separation and eye alignment for these complex conditions.
Protocol errors plague even the most mature system designs. While some modern scopes have the ability to move up the protocol stack on the analog channels, an engineer trying to understand root cause can quickly use up the scope’s analog channels. Adding an MSO makes up to 16 high-speed digital channels available for the measurement. Protocol checking on the digital channels for a measurement like DDR makes it possible to see the full view of analog impacts while validating protocol compliance.
The MSO uses the same 90-pin connector found on Agilent’s logic analyzers. This allows access to a broad range of probing accessories including:
o 17-channel differential/single-ended soft touch connectorless probes
o 17-channel differential/single-ended flying lead set
o 17-channel differential/single-ended Samtec connector
o Selected DDR interposer probing technologies
Agilent Infiniium 90000 X-Series MSOs can be ordered today. Shipments of the MSOs, including upgrades, will begin midyear. The new DSO/DSA 91304A models are available for immediate shipment.
Model Bandwidth Sample rate MSO sample rate
(2/4 channel) (2/4 channel) (8/16 channel)
DSOX91304A 13/13 GHz 80/40 Gsa/s
DSAX91304A 13/13 GHz 80/40 Gsa/s
MSOX91304A 13/13 GHz 80/40 Gsa/s 10/20 Gsa/s
MSOX91604A 16/16 GHz 80/40 Gsa/s 10/20 Gsa/s
MSOX92004A 20/16 GHz 80/40 Gsa/s 10/20 Gsa/s
MSOX92504A 25/16 GHz 80/40 Gsa/s 10/20 Gsa/s
MSOX92804A 28/16 GHz 80/40 Gsa/s 10/20 Gsa/s
MSOX93204A 32/16 GHz 80/40 Gsa/s 10/20 Gsa/s
Additional information about Agilent’s Infiniium 90000 X-Series oscilloscopes is available at www.agilent.com/find/90000x-series. Product images are available at www.agilent.com/find/90000x-series_images.
Agilent will be at DesignCon, Santa Clara Convention Center (Booth 201), Jan. 28- 31, to demonstrate high-speed digital solutions that help engineers design, simulate analyze and debug their devices and ensure compliant designs while cutting through the challenges of gigabit digital designs.