Keysight N1092C DCA-M Sampling Oscilloscope Applications and Performance Specifications

2023-07-11
View:1211
Tags: Oscilloscope,

The primary use of the Keysight N1092C is to test and analyze signal transmission performance in fiber optic communication networks. It provides complete functions and features for high-speed optical networks, and can be applied to a variety of aspects and industries, including but not limited to the following uses:

  • Optical Network Performance Evaluation: The N1092C helps users evaluate the performance of optical networks, including bandwidth, latency, BER, and transmission quality. By measuring and analyzing optical signals, users can understand the actual performance of the network and perform performance optimization and troubleshooting.


  • Optical Device Testing: The instrument can be used to test and verify the performance of various optical devices, such as lasers, optical amplifiers, optical modules, etc.. It can measure the power output, frequency response, modulation characteristics, etc. of the devices to ensure that the devices work properly and perform as required.


  • Optical Network Deployment and Maintenance: The N1092C can be used to verify and validate the quality of optical links during the deployment and maintenance of optical networks. It can detect and measure the power loss, attenuation and reflection of optical signals, helping users to ensure the reliability of the connection and transmission of optical networks.


  • Optical communication R&D: For R&D and innovation of optical communication systems, the N1092C is an important tool. It can test and verify new optical devices, optical transmission technologies and modulation schemes to evaluate their performance and provide data support for system design and optimization.


  • Optical Network Troubleshooting: The N1092C can be used to locate and diagnose problems during optical network troubleshooting. By measuring and analyzing the characteristics of optical signals, users can determine the point of failure and find the root cause of the problem so that the network can be repaired and restored to normal operation in a timely manner.


The Keysight N1092C is a DCA-M sampling oscilloscope with one optical and two electrical channels.The N1092C is used to verify that optical transmitters comply with communications standards.

  • >40 GHz fiber optic (option 40A), 50 GHz electrical

  • FC / PC and 2.4 mm input types

  • High sensitivity, 5 μW (optical), 310 / 600 μV (electrical) noise floor

  • Fast throughput with 250 kHz high sample rate

  • Accurate high data rate analysis with<200 FS jitter




High-speed Performance: The N1092C supports a variety of high-speed rates, including 10Gbps, 25Gbps, 50Gbps, 100Gbps, 200Gbps, and 400Gbps, which meets the needs of fiber-optic communications at different rates, thus helping users to test and evaluate the performance of various optical networks.

Multiple Interfaces: The N1092C supports multiple optoelectronic interfaces, including 28Gbps, 56Gbps, and 100Gbps electronic interfaces, as well as fiber optic interfaces such as CPRI (Common Packet Radio Interface) and Ethernet. This makes it suitable for different types and protocols of optical networks.

Real-time analysis: The N1092C is equipped with real-time signal analysis capability to monitor and analyze the characteristics of optical signals in real time. It captures and displays real-time data during transmission and performs real-time analysis to help users understand the performance and stability of optical signals.

High-precision Measurement: N1092C has high-precision signal measurement capability, which can accurately measure the power, clock and modulation characteristics of optical signals. It utilizes advanced measurement techniques and algorithms to ensure accuracy and reliability.

User-friendly interface: The N1092C features an intuitive user interface and an easy-to-operate control panel, making the testing and analysis process easier and more efficient. Users can easily set and adjust test parameters, view and analyze test results.


Keysight N1092C DCA-M Sampling Oscilloscope Applications and Performance Specifications
2023-07-11
Tags: Oscilloscope,

The primary use of the Keysight N1092C is to test and analyze signal transmission performance in fiber optic communication networks. It provides complete functions and features for high-speed optical networks, and can be applied to a variety of aspects and industries, including but not limited to the following uses:

  • Optical Network Performance Evaluation: The N1092C helps users evaluate the performance of optical networks, including bandwidth, latency, BER, and transmission quality. By measuring and analyzing optical signals, users can understand the actual performance of the network and perform performance optimization and troubleshooting.


  • Optical Device Testing: The instrument can be used to test and verify the performance of various optical devices, such as lasers, optical amplifiers, optical modules, etc.. It can measure the power output, frequency response, modulation characteristics, etc. of the devices to ensure that the devices work properly and perform as required.


  • Optical Network Deployment and Maintenance: The N1092C can be used to verify and validate the quality of optical links during the deployment and maintenance of optical networks. It can detect and measure the power loss, attenuation and reflection of optical signals, helping users to ensure the reliability of the connection and transmission of optical networks.


  • Optical communication R&D: For R&D and innovation of optical communication systems, the N1092C is an important tool. It can test and verify new optical devices, optical transmission technologies and modulation schemes to evaluate their performance and provide data support for system design and optimization.


  • Optical Network Troubleshooting: The N1092C can be used to locate and diagnose problems during optical network troubleshooting. By measuring and analyzing the characteristics of optical signals, users can determine the point of failure and find the root cause of the problem so that the network can be repaired and restored to normal operation in a timely manner.


The Keysight N1092C is a DCA-M sampling oscilloscope with one optical and two electrical channels.The N1092C is used to verify that optical transmitters comply with communications standards.

  • >40 GHz fiber optic (option 40A), 50 GHz electrical

  • FC / PC and 2.4 mm input types

  • High sensitivity, 5 μW (optical), 310 / 600 μV (electrical) noise floor

  • Fast throughput with 250 kHz high sample rate

  • Accurate high data rate analysis with<200 FS jitter




High-speed Performance: The N1092C supports a variety of high-speed rates, including 10Gbps, 25Gbps, 50Gbps, 100Gbps, 200Gbps, and 400Gbps, which meets the needs of fiber-optic communications at different rates, thus helping users to test and evaluate the performance of various optical networks.

Multiple Interfaces: The N1092C supports multiple optoelectronic interfaces, including 28Gbps, 56Gbps, and 100Gbps electronic interfaces, as well as fiber optic interfaces such as CPRI (Common Packet Radio Interface) and Ethernet. This makes it suitable for different types and protocols of optical networks.

Real-time analysis: The N1092C is equipped with real-time signal analysis capability to monitor and analyze the characteristics of optical signals in real time. It captures and displays real-time data during transmission and performs real-time analysis to help users understand the performance and stability of optical signals.

High-precision Measurement: N1092C has high-precision signal measurement capability, which can accurately measure the power, clock and modulation characteristics of optical signals. It utilizes advanced measurement techniques and algorithms to ensure accuracy and reliability.

User-friendly interface: The N1092C features an intuitive user interface and an easy-to-operate control panel, making the testing and analysis process easier and more efficient. Users can easily set and adjust test parameters, view and analyze test results.