What are the digital oscilloscope application scenarios?
Digital oscilloscope is a general-purpose test instrument, essentially a graphic display device, equivalent to a voltmeter or multimeter with a graphical display, can visually display the signal waveform on the screen over time, and the waveform period, voltage, frequency and other parameters for measurement and analysis, widely used in scientific research, production and other fields, is the engineer design, debugging, maintenance of products when the main test instrument. It plays a pivotal role in testing work.
Many engineers in the use of equipment, will encounter some of these problems: with the measurement of qualified equipment measured signal amplitude and frequency data will sometimes be far from the design of the signal itself, so to find the circuit problems, but after a lot of time and effort, but nothing, do not know where the problem lies. In addition, for the same signal, using different equipment to measure the results are not the same.
Oscilloscope is a very wide range of electronic measuring instruments. It can be invisible to the naked eye electrical signals into visible images, to facilitate people to study the process of change of various electrical phenomena. The oscilloscope uses a narrow, high-speed electron beam composed of electrons, hitting the screen surface coated with fluorescent material, it can produce a fine point of light.
Oscilloscopes are divided into two categories: analog oscilloscopes and digital oscilloscopes. Unlike analog oscilloscopes, the device uses an analog-to-digital converter (ADC) to convert the measured voltage values into digital information. It digitally samples the captured waveform and stores it until enough sample points have been accumulated to describe the signal waveform. The device then reads the sample point data to reproduce the waveform on the display. Since Tektronix founder Howard Wollum invented di a trigger oscilloscope in 1946, analog oscilloscopes have been widely used, and now with the development of digital technology and display technology updates, analog oscilloscopes have successively retired from the stage of history.
Keysight N1092A/B/C/D/D/E sampling oscilloscopes provide high-precision, low-cost optical and electrical waveform analysis solutions. Designed for testing optical transmitters in the 25G category. Ultra-low noise ensures highly sensitive NRZ and PAM-4 waveform analysis.
- Solutions supporting 1 Gb/s data rates up to 53 GBaud baud rates
- Very low noise and jitter
- Fast sampling rates for high throughput
With a compact form factor and single to four optical channels, the Keysight N1092 series sampling oscilloscopes are ideal for 100G / 400G optical module design and manufacturing applications.
N1092A One optical channel
N1092B Two optical channels
N1092C One optical channel, two electrical channels
N1092D Four optical channels
Digital oscilloscope is a general-purpose test instrument, essentially a graphic display device, equivalent to a voltmeter or multimeter with a graphical display, can visually display the signal waveform on the screen over time, and the waveform period, voltage, frequency and other parameters for measurement and analysis, widely used in scientific research, production and other fields, is the engineer design, debugging, maintenance of products when the main test instrument. It plays a pivotal role in testing work.
Many engineers in the use of equipment, will encounter some of these problems: with the measurement of qualified equipment measured signal amplitude and frequency data will sometimes be far from the design of the signal itself, so to find the circuit problems, but after a lot of time and effort, but nothing, do not know where the problem lies. In addition, for the same signal, using different equipment to measure the results are not the same.
Oscilloscope is a very wide range of electronic measuring instruments. It can be invisible to the naked eye electrical signals into visible images, to facilitate people to study the process of change of various electrical phenomena. The oscilloscope uses a narrow, high-speed electron beam composed of electrons, hitting the screen surface coated with fluorescent material, it can produce a fine point of light.
Oscilloscopes are divided into two categories: analog oscilloscopes and digital oscilloscopes. Unlike analog oscilloscopes, the device uses an analog-to-digital converter (ADC) to convert the measured voltage values into digital information. It digitally samples the captured waveform and stores it until enough sample points have been accumulated to describe the signal waveform. The device then reads the sample point data to reproduce the waveform on the display. Since Tektronix founder Howard Wollum invented di a trigger oscilloscope in 1946, analog oscilloscopes have been widely used, and now with the development of digital technology and display technology updates, analog oscilloscopes have successively retired from the stage of history.
Keysight N1092A/B/C/D/D/E sampling oscilloscopes provide high-precision, low-cost optical and electrical waveform analysis solutions. Designed for testing optical transmitters in the 25G category. Ultra-low noise ensures highly sensitive NRZ and PAM-4 waveform analysis.
- Solutions supporting 1 Gb/s data rates up to 53 GBaud baud rates
- Very low noise and jitter
- Fast sampling rates for high throughput
With a compact form factor and single to four optical channels, the Keysight N1092 series sampling oscilloscopes are ideal for 100G / 400G optical module design and manufacturing applications.
N1092A One optical channel
N1092B Two optical channels
N1092C One optical channel, two electrical channels
N1092D Four optical channels