Making ‘Real-Time Corrected' Parametric Measurements using a Digital Oscilloscope
While accurate rise time measurements have become easier to make, it remains, nonetheless, quite easy to overlook error contributions due to not only the oscilloscope but also the probe. And, while the error contributed by a scope's finite step-response (rise time) is often accounted for, that contributed by the probe is often overlooked. The probe contributes its own source of error due to its own characteristic rise time. In this article, we will examine rise time measurements made while using a Gaussian scope and a probe, each of a known BW. Furthermore, we will look at how to make a systematic on-the-fly corrected rise time measurement using the DL9000 oscilloscope.
For a test system with a low-pass Gaussian frequency response, every element between the test point and the display of an oscilloscope contributes to the measured rise time (1). In the case of a DUT's rise time, a probe's rise time, and an oscilloscope's rise time, these three rise times may be summed by:
500MHz, 1.0GHz, and 1.5GHz DSOs for debug and high performance applications. 10th
generation oscilloscope from Yokogawa with industry leading 2.5 million wfms/sec and lowest dead time. Winner of Test & Measurement World's "Best in Test" award.
500MHz, 1.0GHz, and 1.5GHz MSOs for debug and high performance applications. 4 channel models with 16 or 32 logic inputs. 10th generation oscilloscope from Yokogawa with industry leading 2.5 million wfms/sec and lowest dead time.
200, 350, and 500MHz mixed-signal oscilloscopes for every engineer. Best-in-class performance in usability, acquisition, analysis, and display—all at a price you can digest. Options include serial bus, vehicle bus, and power supply analysis functions.
The DLM3000HD redefines high-definition in a compact design
8 channel mixed-signal oscilloscopes for every engineer in bandwidths of 350 MHz or 500 MHz. Best-in-class performance in usability, acquisition, analysis, and display.
The DLM5000 series offers versatile measurement options with up to 8 analog channels.
The DLM5000HD series sets a new standard for high-definition oscilloscopes.
500MHz, 1.0GHz, and 1.5GHz DSO and MSO models for debug, waveform characterization, bench top, or automated test applications. 4 channel models with 16 or 32 logic inputs. 12th generation oscilloscope with ergonomic physical and on-screen improvements.