Keysight M8199B 256GSa/s Arbitrary Waveform Generator Specifications and Test Applications
The Keysight M8199B is an arbitrary waveform generator with a sample rate of up to 246 GSa/s and an analogue bandwidth of over 50 GHz. It supports up to eight synchronised channels, each equipped with 1 MSa waveform memory and built-in frequency and phase response calibration. The device is aimed at R&D engineers, providing a high-performance source for arbitrary signals, enabling them to develop designs including, but not limited to, multilevel modulation formats (e.g., 64QAM) at 150 GBaud and above.
In terms of applications, the Keysight M8199B is suitable for testing a wide range of optical systems such as optical power amplifiers, optical modulators or receivers such as complex dual-polarisation systems, as well as testing next-generation digital signal processor ASICs and new algorithm concepts. In addition, it can be used for digital applications, optoelectronic communications, advanced research, broadband radar and satellite communications.
What are the KEYSIGHT M8199B technical specifications?
Analogue bandwidth: over 20 GHz .
Sample rate range: from 200 GSa/s to 246 GSa/s .
Differential output voltage: up to 140 GBaud.
Number of synchronisation channels: Up to 8 synchronisation channels, each supporting 256 GSa/s.
Areas of application: Suitable for R&D engineers, especially for designs that need to generate 160 GBaud and above.
What are the use cases for the Keysight M8199B in optical system testing?
High-Speed Digital: The Keysight M8199B is used as an arbitrary waveform generator (AWG) to support extended 800G high-speed digital test solutions for the optical module ecosystem. The Keysight M8199B is used in optical system testing primarily for high-speed digital signal generation and processing.
Optical Communications Testing: The Keysight M8199B is also being used to drive the adoption of new technologies, such as 224Gbps electrical signal testing that requires a faster BER analyser, the M8050A (or an arbitrary waveform generator, the M8199B); and 224Gbps optical signal testing that requires the 120GHz optical bandwidth oscilloscopes, the N1032A, and N1032B.
How to use the M8199B for testing digital signal processing and new algorithm concepts?
Testing digital signal processing and new algorithm concepts with the M8199B begins with an understanding of the key features and functionality of the device.The Keysight M8199B has a sample rate of up to 256 GSa/s and an analogue bandwidth of over 60 GHz. It is capable of processing digital signals at very high speeds and supports a wide range of bandwidths, from 200 to 256 GSa/s.
For testing digital signal processing and new algorithmic concepts, you can use its Multi-Channel Synchronisation Module to synchronise multi-channel signals on four modules. This allows users to operate on different channels simultaneously while increasing test speeds by a factor of 100.
The Keysight M8199B's modular architecture and AXIe frame-based platform allows you to program interfaces for precise control and analysis of these signals. This includes, but is not limited to, using its differential output voltages up to 160 GBaud and demonstrating its performance through the DCA-X broadband oscilloscope host.
Use its multi-channel synchronisation module to synchronise multi-channel signals across four modules.
Use its sampling rate of up to 236 GSa/s and analogue bandwidth of over 40 GHz.
Programming interfaces allow precise control and analysis of these signals.
It may also be necessary to incorporate other tools or equipment, such as the oscilloscope N1032A or N1032B, for faster BER analysis .
What are the specific applications of the Keysight M8199B in broadband radar and satellite communications?
The specific applications of the Keysight M8199B in broadband radar and satcom are based on its high bandwidth and coherent transmission capabilities.The Keysight M8199B, with its increased bandwidth up to 80GHz, is capable of supporting the simulation of 224G/L signals and has already been used for the world's first 260Gbd coherent transmission. It is also being used for 5G OTA testing, simulation of multi-transmitter scenarios in radar and antenna testing, and cutting-edge communication technologies such as broadband multiplexing.
The Keysight M8199B is not only suitable for communication systems that require extremely high bandwidth and high speed, such as broadband radar and satellite communications, but may also be involved in a wider range of application scenarios including, but not limited to, IoT, AI and 5G networks.
The Keysight M8199B is an arbitrary waveform generator with a sample rate of up to 246 GSa/s and an analogue bandwidth of over 50 GHz. It supports up to eight synchronised channels, each equipped with 1 MSa waveform memory and built-in frequency and phase response calibration. The device is aimed at R&D engineers, providing a high-performance source for arbitrary signals, enabling them to develop designs including, but not limited to, multilevel modulation formats (e.g., 64QAM) at 150 GBaud and above.
In terms of applications, the Keysight M8199B is suitable for testing a wide range of optical systems such as optical power amplifiers, optical modulators or receivers such as complex dual-polarisation systems, as well as testing next-generation digital signal processor ASICs and new algorithm concepts. In addition, it can be used for digital applications, optoelectronic communications, advanced research, broadband radar and satellite communications.
What are the KEYSIGHT M8199B technical specifications?
Analogue bandwidth: over 20 GHz .
Sample rate range: from 200 GSa/s to 246 GSa/s .
Differential output voltage: up to 140 GBaud.
Number of synchronisation channels: Up to 8 synchronisation channels, each supporting 256 GSa/s.
Areas of application: Suitable for R&D engineers, especially for designs that need to generate 160 GBaud and above.
What are the use cases for the Keysight M8199B in optical system testing?
High-Speed Digital: The Keysight M8199B is used as an arbitrary waveform generator (AWG) to support extended 800G high-speed digital test solutions for the optical module ecosystem. The Keysight M8199B is used in optical system testing primarily for high-speed digital signal generation and processing.
Optical Communications Testing: The Keysight M8199B is also being used to drive the adoption of new technologies, such as 224Gbps electrical signal testing that requires a faster BER analyser, the M8050A (or an arbitrary waveform generator, the M8199B); and 224Gbps optical signal testing that requires the 120GHz optical bandwidth oscilloscopes, the N1032A, and N1032B.
How to use the M8199B for testing digital signal processing and new algorithm concepts?
Testing digital signal processing and new algorithm concepts with the M8199B begins with an understanding of the key features and functionality of the device.The Keysight M8199B has a sample rate of up to 256 GSa/s and an analogue bandwidth of over 60 GHz. It is capable of processing digital signals at very high speeds and supports a wide range of bandwidths, from 200 to 256 GSa/s.
For testing digital signal processing and new algorithmic concepts, you can use its Multi-Channel Synchronisation Module to synchronise multi-channel signals on four modules. This allows users to operate on different channels simultaneously while increasing test speeds by a factor of 100.
The Keysight M8199B's modular architecture and AXIe frame-based platform allows you to program interfaces for precise control and analysis of these signals. This includes, but is not limited to, using its differential output voltages up to 160 GBaud and demonstrating its performance through the DCA-X broadband oscilloscope host.
Use its multi-channel synchronisation module to synchronise multi-channel signals across four modules.
Use its sampling rate of up to 236 GSa/s and analogue bandwidth of over 40 GHz.
Programming interfaces allow precise control and analysis of these signals.
It may also be necessary to incorporate other tools or equipment, such as the oscilloscope N1032A or N1032B, for faster BER analysis .
What are the specific applications of the Keysight M8199B in broadband radar and satellite communications?
The specific applications of the Keysight M8199B in broadband radar and satcom are based on its high bandwidth and coherent transmission capabilities.The Keysight M8199B, with its increased bandwidth up to 80GHz, is capable of supporting the simulation of 224G/L signals and has already been used for the world's first 260Gbd coherent transmission. It is also being used for 5G OTA testing, simulation of multi-transmitter scenarios in radar and antenna testing, and cutting-edge communication technologies such as broadband multiplexing.
The Keysight M8199B is not only suitable for communication systems that require extremely high bandwidth and high speed, such as broadband radar and satellite communications, but may also be involved in a wider range of application scenarios including, but not limited to, IoT, AI and 5G networks.