Keysight DCA-M Sampling Oscilloscope N1092D, Collector's Keeping
The N1092D is a high-performance DCA-M sampling oscilloscope manufactured by Keysight for use in optical communications. With four optical channels and supporting 28/45 GHz bandwidth, the device is suitable for testing and analysing high-speed data transmission.
Key features of the N1092D include:
Fast sampling rate: up to 250 kHz, enabling it to handle extremely high-speed data streams.
Accurate data rate analysis: Jitter is controlled to within 200 fs, ensuring accurate data analysis.
Compact design: small size makes it easy to integrate into a variety of test systems.
Supports a wide range of wavelengths, from 750 nm to 1630 nm, adapting to different optical communication standards.
Equipped with a USB interface, it can be connected to a PC or other host computer via USB for data processing and display.
The Keysight N1092D also offers a wide range of configuration options to meet the needs of different users, such as different numbers of optical channels and electrical channel configurations. It is widely used to verify that optical transmitters comply with communication standards and is ideal for optical communication testing and analysis.
The N1092D is a powerful, highly sensitive, fast sampling rate and compactly designed optical communications test instrument for performance testing and troubleshooting of high-speed optical communications systems.
What are the specific differences in performance and application areas between the Keysight N1092D and Keysight N1092A?
Number of optical channels: The N1092A is a single-optical channel sampling oscilloscope, while the N1092D is equipped with four optical channels. This means that the N1092D is able to process more signals simultaneously, making it suitable for more complex testing needs.
Sampling Rate: Both have an ultra-fast sampling rate of up to 250 kHz, but since the N1092D is the four-channel version, its practical applications may have higher data processing requirements due to the need to process more signals simultaneously.
Areas of application: The N1092A is mainly used for optical waveform analysis, especially for precise measurements in high-speed digital designs, such as solutions from 8.4 to 64 Gbaud. The N1092D, on the other hand, in addition to similar optical waveform analysis capabilities, is also suitable for verifying that optical transmitters comply with communication standards, indicating that the N1092D has a wider range of applications.
Option Functions: The N1092A can select two options, PLK and IRC, for code-lock triggering and impulse response calibration to extend its data rate range and reference receiver functions. This flexibility makes the N1092A even more applicable in specific test environments.
How do I configure the Keysight N1092D for different optical communication standards, such as Ethernet or SDH?
Supported Rates and Formats: According to the information I searched, the N1092D supports a variety of Ethernet rates and formats, including 10 Gb/s, 25/50/100 Gb/s, 400 Gb/s, and OTU4. This means that users can choose the right configuration for different rates as needed.
Number of Optical Channels: The N1092D supports up to 32 Fibre Channels, which opens up the possibility of high-density fibre optic networks, making it possible to monitor multiple optical channels simultaneously on a single device.
FEC (Forward Error Correction) Technology: To improve the reliability of data transmission, the N1092D supports OC-192/STM-64 FEC and ITU-T G.959.1 FEC technologies. These technologies effectively reduce errors during data transmission, thereby improving data integrity.
Software and Drivers: In order to take full advantage of the N1092D's capabilities, users need to ensure that the latest versions of software and drivers are installed. Based on the evidence, Keysight provides relevant resources to download, including drivers, firmware and software. Regularly updating these software and drivers will ensure the stability and compatibility of the device's operation.
Application-specific configurations: For specific applications such as SDH (Synchronous Digital Hierarchy), although there is little direct evidence, it is often necessary to consider the configuration of the optical channel, the choice of FEC technology and whether specific hardware extensions (e.g. TDEC) are required to meet the specific requirements of SDH. It is therefore recommended to refer to the detailed configuration guide and technical support documentation provided by the manufacturer to ensure correct configuration.
Configuring the N1092D to accommodate different optical communication standards requires a combination of supported rates and formats, number of optical channels, FEC technology, software and driver updates, and application-specific configuration needs.
How does the Keysight N1092D perform in real-world optical communications testing, and what user feedback or case studies are available?
The N1092D performs very well in real-world optical communications testing and offers several advantages. It offers high sensitivity and low noise, with noise levels of less than 5 uW, which is important for applications that require accurate measurements.The N1092D supports sampling rates of up to 250 kHz, which means that it is able to provide fast measurement rates for applications that require high data rate analysis. It also has low jitter (<200 fs), which helps to improve test accuracy.
From user feedback and case studies, the N1092D is used in a wide range of optical communication tests. For example, it is used for testing 25/100/400 Gb/s optical devices, which are critical for building high-speed networks. In addition, the N1092D has been used in the development of optical interconnection technology for data centres and in the testing of 400G optical modules, demonstrating its ability to meet the needs of the high-end market for high-precision and high-throughput test systems.
The N1092D excels in real-world optical communication testing not only because of its high-performance specifications, but also because of its extensive use in real-world applications and favourable user feedback.
The N1092D is a high-performance DCA-M sampling oscilloscope manufactured by Keysight for use in optical communications. With four optical channels and supporting 28/45 GHz bandwidth, the device is suitable for testing and analysing high-speed data transmission.
Key features of the N1092D include:
Fast sampling rate: up to 250 kHz, enabling it to handle extremely high-speed data streams.
Accurate data rate analysis: Jitter is controlled to within 200 fs, ensuring accurate data analysis.
Compact design: small size makes it easy to integrate into a variety of test systems.
Supports a wide range of wavelengths, from 750 nm to 1630 nm, adapting to different optical communication standards.
Equipped with a USB interface, it can be connected to a PC or other host computer via USB for data processing and display.
The Keysight N1092D also offers a wide range of configuration options to meet the needs of different users, such as different numbers of optical channels and electrical channel configurations. It is widely used to verify that optical transmitters comply with communication standards and is ideal for optical communication testing and analysis.
The N1092D is a powerful, highly sensitive, fast sampling rate and compactly designed optical communications test instrument for performance testing and troubleshooting of high-speed optical communications systems.
What are the specific differences in performance and application areas between the Keysight N1092D and Keysight N1092A?
Number of optical channels: The N1092A is a single-optical channel sampling oscilloscope, while the N1092D is equipped with four optical channels. This means that the N1092D is able to process more signals simultaneously, making it suitable for more complex testing needs.
Sampling Rate: Both have an ultra-fast sampling rate of up to 250 kHz, but since the N1092D is the four-channel version, its practical applications may have higher data processing requirements due to the need to process more signals simultaneously.
Areas of application: The N1092A is mainly used for optical waveform analysis, especially for precise measurements in high-speed digital designs, such as solutions from 8.4 to 64 Gbaud. The N1092D, on the other hand, in addition to similar optical waveform analysis capabilities, is also suitable for verifying that optical transmitters comply with communication standards, indicating that the N1092D has a wider range of applications.
Option Functions: The N1092A can select two options, PLK and IRC, for code-lock triggering and impulse response calibration to extend its data rate range and reference receiver functions. This flexibility makes the N1092A even more applicable in specific test environments.
How do I configure the Keysight N1092D for different optical communication standards, such as Ethernet or SDH?
Supported Rates and Formats: According to the information I searched, the N1092D supports a variety of Ethernet rates and formats, including 10 Gb/s, 25/50/100 Gb/s, 400 Gb/s, and OTU4. This means that users can choose the right configuration for different rates as needed.
Number of Optical Channels: The N1092D supports up to 32 Fibre Channels, which opens up the possibility of high-density fibre optic networks, making it possible to monitor multiple optical channels simultaneously on a single device.
FEC (Forward Error Correction) Technology: To improve the reliability of data transmission, the N1092D supports OC-192/STM-64 FEC and ITU-T G.959.1 FEC technologies. These technologies effectively reduce errors during data transmission, thereby improving data integrity.
Software and Drivers: In order to take full advantage of the N1092D's capabilities, users need to ensure that the latest versions of software and drivers are installed. Based on the evidence, Keysight provides relevant resources to download, including drivers, firmware and software. Regularly updating these software and drivers will ensure the stability and compatibility of the device's operation.
Application-specific configurations: For specific applications such as SDH (Synchronous Digital Hierarchy), although there is little direct evidence, it is often necessary to consider the configuration of the optical channel, the choice of FEC technology and whether specific hardware extensions (e.g. TDEC) are required to meet the specific requirements of SDH. It is therefore recommended to refer to the detailed configuration guide and technical support documentation provided by the manufacturer to ensure correct configuration.
Configuring the N1092D to accommodate different optical communication standards requires a combination of supported rates and formats, number of optical channels, FEC technology, software and driver updates, and application-specific configuration needs.
How does the Keysight N1092D perform in real-world optical communications testing, and what user feedback or case studies are available?
The N1092D performs very well in real-world optical communications testing and offers several advantages. It offers high sensitivity and low noise, with noise levels of less than 5 uW, which is important for applications that require accurate measurements.The N1092D supports sampling rates of up to 250 kHz, which means that it is able to provide fast measurement rates for applications that require high data rate analysis. It also has low jitter (<200 fs), which helps to improve test accuracy.
From user feedback and case studies, the N1092D is used in a wide range of optical communication tests. For example, it is used for testing 25/100/400 Gb/s optical devices, which are critical for building high-speed networks. In addition, the N1092D has been used in the development of optical interconnection technology for data centres and in the testing of 400G optical modules, demonstrating its ability to meet the needs of the high-end market for high-precision and high-throughput test systems.
The N1092D excels in real-world optical communication testing not only because of its high-performance specifications, but also because of its extensive use in real-world applications and favourable user feedback.