Difference between KEYSIGHT 86100D and N1092A oscilloscope?

2024-04-02
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The main difference between the 86100D and the N1092A lies in their application areas and functions.The 86100D is a wide bandwidth oscilloscope mainframe that is primarily used for accurate measurements of high-speed digital designs from 50 Mb/s to over 80 Gb/s. It is suitable for a wide variety of applications such as optical transceiver design and production testing, ASIC/FPGA/IC design and characterisation, serial bus design, cable and printed circuit board (PCB) signal integrity measurements, and many other applications. In addition, the 86100D supports operation via USB keyboard, mouse and populated panels, and features high analogue bandwidth, low jitter and low noise performance with the ability to analyse and acquire up to 16 signals simultaneously.


In contrast, the N1092A/B/C/D/E series are multi-channel optical/electrical sampling oscilloscopes that are controlled from a PC via USB. These units offer a varying number of optical and electrical channel inputs on the front panel, and are suitable for tasks such as optical waveform analysis.The N1092A series specifically mentions compatibility with the 86100D, suggesting that they can be connected to and controlled by the 86100D system, which may involve the possibility of control via GPIB or LAN.


Whereas the 86100D focuses primarily on accurate measurements for high-speed digital designs, the N1092A series focuses more on optical waveform analysis and multi-channel optical/electrical sampling oscillators. The main difference between the two is their application range and functional characteristics.

What are the differences between 86100D and N1092A/B/C/D/E series oscilloscopes in terms of specifications and performance parameters?

The differences in technical specifications and performance parameters between 86100D and N1092A/B/C/D/E series oscilloscopes are mainly reflected in the following aspects:


While N1092A/B/C/D/E series oscilloscopes provide different sampling rates, for example, the N1092C supports 28/45 GHz (one optical channel) and 50 GHz two electrical channels, and the N1092A provides solutions from 8.4 to 64 Gbaud.


Sampling System: The N1092A/B/C/D/E Series oscilloscopes use the high-performance elements of the N1000 and 86100 oscilloscope mainframes, as well as the acquisition systems for the optical and electrical channels, to build on this heritage. This indicates that the N1092 series has optimised and upgraded the sampling system to accommodate higher performance requirements.


User interface and operating system: The user interface and operating system of the N109X series (including the N1092A/B/C/D/E) are identical to the 86100D's modernised FlexDCA interface. This means that the two provide a similar operating experience in terms of user interaction, despite differences in hardware performance.


Modular Design: Unlike the 86100D and N1000A, the N1092A/B/C/D/E series oscilloscopes use modules to create waveform analysis systems. This design may give the N1092 series an advantage in flexibility and expandability, allowing users to select different modules as needed to meet specific application requirements.


The 86100D and N1092A/B/C/D/E Series oscilloscopes differ in terms of sampling rate, number of channels, sampling system, user interface and operating system, and modular design. These differences reflect the design concepts and technical positioning of the two devices for different application scenarios.


Difference between KEYSIGHT 86100D and N1092A oscilloscope?
2024-04-02

The main difference between the 86100D and the N1092A lies in their application areas and functions.The 86100D is a wide bandwidth oscilloscope mainframe that is primarily used for accurate measurements of high-speed digital designs from 50 Mb/s to over 80 Gb/s. It is suitable for a wide variety of applications such as optical transceiver design and production testing, ASIC/FPGA/IC design and characterisation, serial bus design, cable and printed circuit board (PCB) signal integrity measurements, and many other applications. In addition, the 86100D supports operation via USB keyboard, mouse and populated panels, and features high analogue bandwidth, low jitter and low noise performance with the ability to analyse and acquire up to 16 signals simultaneously.


In contrast, the N1092A/B/C/D/E series are multi-channel optical/electrical sampling oscilloscopes that are controlled from a PC via USB. These units offer a varying number of optical and electrical channel inputs on the front panel, and are suitable for tasks such as optical waveform analysis.The N1092A series specifically mentions compatibility with the 86100D, suggesting that they can be connected to and controlled by the 86100D system, which may involve the possibility of control via GPIB or LAN.


Whereas the 86100D focuses primarily on accurate measurements for high-speed digital designs, the N1092A series focuses more on optical waveform analysis and multi-channel optical/electrical sampling oscillators. The main difference between the two is their application range and functional characteristics.

What are the differences between 86100D and N1092A/B/C/D/E series oscilloscopes in terms of specifications and performance parameters?

The differences in technical specifications and performance parameters between 86100D and N1092A/B/C/D/E series oscilloscopes are mainly reflected in the following aspects:


While N1092A/B/C/D/E series oscilloscopes provide different sampling rates, for example, the N1092C supports 28/45 GHz (one optical channel) and 50 GHz two electrical channels, and the N1092A provides solutions from 8.4 to 64 Gbaud.


Sampling System: The N1092A/B/C/D/E Series oscilloscopes use the high-performance elements of the N1000 and 86100 oscilloscope mainframes, as well as the acquisition systems for the optical and electrical channels, to build on this heritage. This indicates that the N1092 series has optimised and upgraded the sampling system to accommodate higher performance requirements.


User interface and operating system: The user interface and operating system of the N109X series (including the N1092A/B/C/D/E) are identical to the 86100D's modernised FlexDCA interface. This means that the two provide a similar operating experience in terms of user interaction, despite differences in hardware performance.


Modular Design: Unlike the 86100D and N1000A, the N1092A/B/C/D/E series oscilloscopes use modules to create waveform analysis systems. This design may give the N1092 series an advantage in flexibility and expandability, allowing users to select different modules as needed to meet specific application requirements.


The 86100D and N1092A/B/C/D/E Series oscilloscopes differ in terms of sampling rate, number of channels, sampling system, user interface and operating system, and modular design. These differences reflect the design concepts and technical positioning of the two devices for different application scenarios.