What specific measurement modes and use cases does the Agilent 86100D support?
Measurement modes and application cases supported by the Agilent 86100D include:
Oscilloscope mode: provides high-fidelity waveform characterization, which allows you to measure waveform parameters such as amplitude, frequency, phase, duty cycle, etc.38 This mode provides the most accurate waveform measurement results.
Eye Diagram/Template Mode: Allows fast and accurate conformance testing of transceivers. Use eye diagram analysis and automatic template margin measurements to quickly characterize the transmitter.
TDR/TDT mode: Combined with the S-parameter function, it can be used for precision impedance measurements. Accurate time-domain reflection/transmission and S-parameter measurements for testing high-density ASIC/FPGA tests and parallel designs.
Jitter Mode: Precise jitter, amplitude and frequency analysis capability. Advanced amplitude analysis/RIN/Q-factor software extends jitter mode to the amplitude domain, helping to quickly determine what is causing eye diagram closure and reporting relative intensity noise (RIN), RIN-OMA and Q-factor.
In addition, the 86100D supports time-domain measurements, spectrum analysis, and more. These measurement modes and application cases enable the Agilent 86100D to be used in a wide range of applications for accurate measurements of high-speed digital designs, from 50Mb/s to high-speed signals in excess of 80Gb/s.
Measurement modes and application cases supported by the Agilent 86100D include:
Oscilloscope mode: provides high-fidelity waveform characterization, which allows you to measure waveform parameters such as amplitude, frequency, phase, duty cycle, etc.38 This mode provides the most accurate waveform measurement results.
Eye Diagram/Template Mode: Allows fast and accurate conformance testing of transceivers. Use eye diagram analysis and automatic template margin measurements to quickly characterize the transmitter.
TDR/TDT mode: Combined with the S-parameter function, it can be used for precision impedance measurements. Accurate time-domain reflection/transmission and S-parameter measurements for testing high-density ASIC/FPGA tests and parallel designs.
Jitter Mode: Precise jitter, amplitude and frequency analysis capability. Advanced amplitude analysis/RIN/Q-factor software extends jitter mode to the amplitude domain, helping to quickly determine what is causing eye diagram closure and reporting relative intensity noise (RIN), RIN-OMA and Q-factor.
In addition, the 86100D supports time-domain measurements, spectrum analysis, and more. These measurement modes and application cases enable the Agilent 86100D to be used in a wide range of applications for accurate measurements of high-speed digital designs, from 50Mb/s to high-speed signals in excess of 80Gb/s.