Keysight 3000 Tx Cover Sm

Keysight debuts mainstream oscilloscopes with capacitive touch screens

Jan. 9, 2015

Keysight Technologies Inc. has introduced InfiniiVision 3000T X-Series digital-storage and mixed-signal oscilloscopes with intuitive graphical triggering capability. This new oscilloscope series delivers capacitive touch screens and zone triggering to the mainstream oscilloscope market. The scopes help engineers overcome usability and triggering challenges and improve their problem-solving capability and productivity.

As digital speeds and device complexity continue to increase, signals under test are getting more complex, and engineers are more challenged to isolate anomalies in their devices. Intuitive graphical triggers, previously unavailable in mainstream oscilloscopes, help engineers debug and characterize their cutting-edge devices faster and more easily. With graphical triggers, engineers can use a finger to draw a box around a signal of interest on the instrument display to create a trigger.

The new oscilloscope series offers upgradable bandwidths from 100 MHz to 1.0 GHz and several benchmark features in addition to the touch-screen interface and graphical zone triggering capability. An update rate of one million waveforms per second gives engineers visibility into subtle signal details. The series comes with six-instruments-in-one integration, including oscilloscope functionality, digital channels (MSO), protocol analysis capability, a digital voltmeter, a WaveGen function/arbitrary waveform generator, and an 8-digit hardware counter/totalizer. Finally, the 3000T X-Series delivers correlated frequency and time domain measurements using the gated FFT function for the first time in this class, to address emerging measurement challenges.

“These new scopes give engineers using mainstream oscilloscopes an uncompromised ability to find and isolate the most difficult problems in their designs,” said Dave Cipriani, vice president and general manager of Keysight’s Oscilloscope and Protocol Division. “Design-for-touch operation improves their debugging efficiency. Mixed-domain analysis capabilities with time-correlated frequency/time domain measurements, six-in-one integration, and a rich set of advanced features accelerate their problem solving.”

The 3000T X-Series was designed specifically for operation with a capacitive touch screen, which allows engineers to select targets naturally and quickly. To further improve productivity, the interface includes an alphanumeric touchpad that replaces tedious knob-based operation and touch-based interaction that enables greater flexibility in displaying measurement information.

With the series’ high-speed waveform update rate, even with the digital channel, protocol decode, and measurements and math functions turned on, engineers have the highest probability of discovering anomalies of interest.

The 3000T X-Series supports a range of popular and emerging serial bus applications: MIL-STD 1553 and ARINC 429, I2S, CAN/CAN-FD/CAN-Symbolic, LIN, SENT, FlexRay, RS-232/422/485/UART, and I2C/SPI. The new gated FFT function allows engineers to correlate time and frequency domain phenomenon on a single screen. Finally, the power analysis, video analysis and hardware-based mask test option makes the 3000T X-Series a comprehensive mainstream oscilloscope.

The InfiniiVision 3000T X-Series includes 100-MHz, 200-MHz, 350-MHz, 500-MHz, and 1-GHz models. The standard configuration for all models includes 4 Mpts of memory, segmented memory, advanced math, and 500-MHz passive probes.

Keysight InfiniiVision 3000T X-Series oscilloscopes are available today starting at $3,350 for a 100-MHz model with two analog channels; a 1-GHz model with four analog and 16 digital channels costs $15,400.

www.keysight.com/find/3000TX-Series

About the Author

Rick Nelson | Contributing Editor

Rick is currently Contributing Technical Editor. He was Executive Editor for EE in 2011-2018. Previously he served on several publications, including EDN and Vision Systems Design, and has received awards for signed editorials from the American Society of Business Publication Editors. He began as a design engineer at General Electric and Litton Industries and earned a BSEE degree from Penn State.

Sponsored Recommendations

Comments

To join the conversation, and become an exclusive member of Electronic Design, create an account today!