Keysight 86100D and 86105C Module Features and Applications

2023-07-14
View:1408
Tags: Oscilloscope,

The Keysight 86100D oscilloscope platform and its companion module, the 86105C, are designed for testing and analyzing high-speed digital signals and fiber-optic communication systems. 86100D oscilloscopes, as high-performance oscilloscopes, are equipped with a wide range of signal analysis functions, including time-domain measurements, spectral analysis, and eye-diagram analysis, etc. The 86105C module, on the other hand, provides photoelectricity conversion functions for fiber-optic communication systems to help users evaluate and analyze the performance of their fiber-optic communication systems. The 86105C module provides optoelectronic conversion functions for fiber optic communication systems to help users evaluate and analyze the performance of fiber optic communication systems.


The Keysight 86100D and 86105C modules are high-performance instruments that provide powerful test and analysis capabilities for researchers and engineers working in the field of high-speed digital signals and fiber optic communication systems, which are critical to the performance evaluation and analysis of modern communication.


Keysight 86100D Oscilloscope Platform: To technical features and benefits

  • High bandwidth and high sampling rate to support accurate analysis of high-speed digital signals.

  • A variety of signal analysis functions, such as time domain measurement, spectrum analysis, eye diagram analysis, etc., to help users gain a deeper understanding of the characteristics of the signal.

  • Flexible user interface and intuitive operation enhance users' work efficiency.

Supported signal analysis functions and their applications

Time Domain Measurement: By capturing and analyzing the time variation of the signal, it helps users to understand the time domain characteristics of the signal, such as rise time, peak value, etc.

Spectrum analysis: It can convert the signal to frequency domain representation to help users analyze the spectral distribution of the signal and identify the interference components, etc.

Eye diagram analysis: By repeatedly sampling and superimposing the signal, an eye diagram image is obtained, providing a visual assessment of the signal quality.

Keysight 86105C photoelectric conversion module: the basic principle and working process of the module

86105C module is a photoelectric converter, the optical signal into electrical signals for testing and analysis.

Connected to fiber optic communication systems through a fiber optic interface, it collects optical signals and converts them to electrical signals.

Provides high bandwidth and low noise characteristics to ensure accurate signal conversion and analysis.

Supported Optical Interfaces and Fiber Types

The 86105C module supports a wide range of optical interfaces, including single-mode and multimode fibers.

It is compatible with different types of fiber optic communication systems, such as fiber optic communication devices, optical modules, and transmission systems.


Application examples in fiber optic communication system testing

Evaluation of transmission performance of fiber optic communication systems, including measurement and analysis of transmission loss, clock jitter, crosstalk and other parameters.

Evaluation and debugging of signal quality, detecting signal distortion and clock jitter through eye diagram analysis and time domain measurement.


Analysis of fiber optic communication system faults and rapid troubleshooting and repair.

Applications

Analysis of High-Speed Digital Signals

Using the Keysight 86100D oscilloscope platform, accurate time-domain measurements and spectral analysis of high-speed digital signals can be performed to help users understand the clock jitter, rise time, and other characteristics of the signal.

The eye diagram analysis function provides a visual assessment of signal quality, helping users determine signal stability and data transmission quality.

It has a wide range of applications in designing and verifying high-speed communication systems, chips and modules.

Performance Evaluation of Fiber Optic Communication Devices and Modules

With the Keysight 86105C Optical Converter Module, optical signals can be converted to electrical signals for testing and analysis, helping users evaluate the performance of fiber optic communication devices and modules.

By measuring and analyzing parameters such as transmission loss, crosstalk, clock jitter, etc., the transmission capability and stability of fiber optic communication systems can be evaluated.

It supports different types of fiber optic interfaces to meet the wide range of user needs for fiber optic communication systems.

Fiber Optic Communication System Failure Analysis and Troubleshooting

The Keysight 86105C module can be used for fault analysis and troubleshooting to help users locate problems in fiber optic communication systems.

Signal distortion, clock jitter, and interference problems can be detected through eye diagram analysis, time domain measurements, and spectrum analysis.

Quickly locate and troubleshoot problems to improve the reliability and performance of fiber optic communication systems.

The Keysight 86100D oscilloscope platform and 86105C module are valuable tools in the analysis and testing of high-speed digital signals and fiber-optic communication systems. 86100D provides a rich set of signal analysis functions to help users gain insight into the characteristics and quality of signals. 86105C module provides optical-to-electrical conversion for fiber-optic communication systems to facilitate performance evaluation and fault analysis of fiber-optic communication devices and modules. The 86105C module provides optoelectronic conversion functions for fiber optic communication systems, facilitating performance evaluation and fault analysis of fiber optic communication devices and modules. The combination of the two modules can be used in a wide range of high-speed digital and fiber optic communication applications, helping to improve system reliability and performance.


Keysight 86100D and 86105C Module Features and Applications
2023-07-14
Tags: Oscilloscope,

The Keysight 86100D oscilloscope platform and its companion module, the 86105C, are designed for testing and analyzing high-speed digital signals and fiber-optic communication systems. 86100D oscilloscopes, as high-performance oscilloscopes, are equipped with a wide range of signal analysis functions, including time-domain measurements, spectral analysis, and eye-diagram analysis, etc. The 86105C module, on the other hand, provides photoelectricity conversion functions for fiber-optic communication systems to help users evaluate and analyze the performance of their fiber-optic communication systems. The 86105C module provides optoelectronic conversion functions for fiber optic communication systems to help users evaluate and analyze the performance of fiber optic communication systems.


The Keysight 86100D and 86105C modules are high-performance instruments that provide powerful test and analysis capabilities for researchers and engineers working in the field of high-speed digital signals and fiber optic communication systems, which are critical to the performance evaluation and analysis of modern communication.


Keysight 86100D Oscilloscope Platform: To technical features and benefits

  • High bandwidth and high sampling rate to support accurate analysis of high-speed digital signals.

  • A variety of signal analysis functions, such as time domain measurement, spectrum analysis, eye diagram analysis, etc., to help users gain a deeper understanding of the characteristics of the signal.

  • Flexible user interface and intuitive operation enhance users' work efficiency.

Supported signal analysis functions and their applications

Time Domain Measurement: By capturing and analyzing the time variation of the signal, it helps users to understand the time domain characteristics of the signal, such as rise time, peak value, etc.

Spectrum analysis: It can convert the signal to frequency domain representation to help users analyze the spectral distribution of the signal and identify the interference components, etc.

Eye diagram analysis: By repeatedly sampling and superimposing the signal, an eye diagram image is obtained, providing a visual assessment of the signal quality.

Keysight 86105C photoelectric conversion module: the basic principle and working process of the module

86105C module is a photoelectric converter, the optical signal into electrical signals for testing and analysis.

Connected to fiber optic communication systems through a fiber optic interface, it collects optical signals and converts them to electrical signals.

Provides high bandwidth and low noise characteristics to ensure accurate signal conversion and analysis.

Supported Optical Interfaces and Fiber Types

The 86105C module supports a wide range of optical interfaces, including single-mode and multimode fibers.

It is compatible with different types of fiber optic communication systems, such as fiber optic communication devices, optical modules, and transmission systems.


Application examples in fiber optic communication system testing

Evaluation of transmission performance of fiber optic communication systems, including measurement and analysis of transmission loss, clock jitter, crosstalk and other parameters.

Evaluation and debugging of signal quality, detecting signal distortion and clock jitter through eye diagram analysis and time domain measurement.


Analysis of fiber optic communication system faults and rapid troubleshooting and repair.

Applications

Analysis of High-Speed Digital Signals

Using the Keysight 86100D oscilloscope platform, accurate time-domain measurements and spectral analysis of high-speed digital signals can be performed to help users understand the clock jitter, rise time, and other characteristics of the signal.

The eye diagram analysis function provides a visual assessment of signal quality, helping users determine signal stability and data transmission quality.

It has a wide range of applications in designing and verifying high-speed communication systems, chips and modules.

Performance Evaluation of Fiber Optic Communication Devices and Modules

With the Keysight 86105C Optical Converter Module, optical signals can be converted to electrical signals for testing and analysis, helping users evaluate the performance of fiber optic communication devices and modules.

By measuring and analyzing parameters such as transmission loss, crosstalk, clock jitter, etc., the transmission capability and stability of fiber optic communication systems can be evaluated.

It supports different types of fiber optic interfaces to meet the wide range of user needs for fiber optic communication systems.

Fiber Optic Communication System Failure Analysis and Troubleshooting

The Keysight 86105C module can be used for fault analysis and troubleshooting to help users locate problems in fiber optic communication systems.

Signal distortion, clock jitter, and interference problems can be detected through eye diagram analysis, time domain measurements, and spectrum analysis.

Quickly locate and troubleshoot problems to improve the reliability and performance of fiber optic communication systems.

The Keysight 86100D oscilloscope platform and 86105C module are valuable tools in the analysis and testing of high-speed digital signals and fiber-optic communication systems. 86100D provides a rich set of signal analysis functions to help users gain insight into the characteristics and quality of signals. 86105C module provides optical-to-electrical conversion for fiber-optic communication systems to facilitate performance evaluation and fault analysis of fiber-optic communication devices and modules. The 86105C module provides optoelectronic conversion functions for fiber optic communication systems, facilitating performance evaluation and fault analysis of fiber optic communication devices and modules. The combination of the two modules can be used in a wide range of high-speed digital and fiber optic communication applications, helping to improve system reliability and performance.