Keysight Technologies announced the Infiniivision 1000 X-series oscilloscopes. The series, with a starting price below € 450, come with 50-MHz to 100-MHz models.
The oscilloscopes deliver functionality with software analysis and 6-in-1 instrument integration. The 1000 X-series uses Keysight’s Megazoom IV custom Asic technology, which enables a 50 000 waveforms per second update rate. This makes it easier to see random and infrequent glitches and anomalies, said the company. The product also has a high sampling rate of up to two Giga sample/s and comes regular with two probes. The oscilloscopes use segmented memory capability to maximize memory depth while helping the scope test faster.
The front panel features built-in help so users can analyze signals to deliver results. The educator’s resource kit comes “standard”. The kit includes built-in training signals, a oscilloscope lab guide written specifically for undergraduate students, and an oscilloscope fundamentals slide set for professors and lab assistants. The series supports decoding and analysis of a wide range of embedded and automotive serial bus applications, which include CAN, I2C, SPI, UART/EIA-232, and LIN.
“When designing the 1000 X-series, we looked for ways to aggressively reduce costs while delivering a high-quality product,” said Dave Cipriani, vice president and general manager of Keysight’s Digital Photonics Center of Excellence. “We are excited to offer customers a low-priced solution that delivers excellent measurement performance and software analysis capabilities.”
Six-in-one instrument integration means the 1000 X-series gives users value for their money and saves valuable bench space, said the company. In addition to being an oscilloscope, the series is also a serial protocol analyzer, digital voltmeter, and frequency counter—and the EDUX1002G and DSOX1102G models include a frequency response analyzer and Wavegen function generator.
The product provides measurement and software analysis capability. The scope features 24 typical oscilloscope measurements to analyze signals and determine signal parameters. Additional signal analysis is provided by the gated FFT function, which allows users to correlate time and frequency domain phenomenon on a single screen. And mask limit testing is also available to help users detect signal errors.
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