Keysight 86100D oscilloscope question summary
The KEYSIGHT 86100D is a wide bandwidth oscilloscope mainframe that can be used for testing and analyzing high-speed digital signals and fiber-optic communication systemsIt can be used with different modules, such as the 86105C, to achieve bandwidths of up to 90 GHz, as well as time-domain measurements, spectral analysis, and eye diagram analysisIt also offers ultra-low jitter and low-noise performance for fast, accurate, and consistent jitter measurementsIt's a high-performance oscilloscope for both optical and electrical designs.
What are the models of 86100D?86100D the following models:
- 86100D-001: has an enhanced trigger function that enables triggering and capturing of complex signals
- 86100D-002: features a built-in photodetector (PD) power supply that provides a stable bias voltage for the photodetector
- 86100D-003: features a built-in optical switch that can switch signals between multiple optical channels without reconnecting the optical fiber
- 86100D-004: With built-in optical attenuator, it can regulate the optical power of the input signal to avoid overload or underload.
- 86100D-005: with a built-in optical power meter, can measure the optical power and wavelength of the input signal
What types of signals can the 86100D measure?The 86100D measures the following types of signals:
- Optical Signal: 86100D can use photoelectric converter module or optical sampling module to directly sample or indirectly convert the optical signal, so as to obtain the waveform, eye diagram, jitter, mask and other parameters of the optical signal. 86100D supports a variety of optical standards, such as Ethernet, Fibre Channel, OTN, SONET/SDH etc. It also provides calibrated reference receivers and automatic mask analysis.
- Electrical Signal: 86100D can use electrical sampling module or electrical TDR/TDT module to capture and analyze electrical signals with high fidelity waveforms, so as to obtain the amplitude, frequency, phase, jitter, noise and other parameters of the electrical signals. 86100D supports a variety of electrical standards, such as PCI Express, USB, HDMI, MIPI, etc., and provides signal processing functions such as de-embedding/embedding and equalizer.
- TDR/TDT/S Parameters: 86100D can use electrical TDR/TDT module or optical TDR/TDT module to perform time domain reflection/transmission test on transmission media such as cable, PCB or fiber optic, so as to obtain the impedance, loss, return and other parameters of the media. 86100D can also convert the time domain data to frequency domain data to obtain the The 86100D can also convert time-domain data into frequency-domain data to obtain the S-parameters of the medium, and provide display methods such as Smith chart and polar plot.
Can the 86100D measure DDR5? The 86100D can measure DDR5 electrical signals, but specific modules and software are required. 86100D can use the 86108B/C electrical modules with the N6462A DDR4/DDR5 Compliance Test Software to measure and analyze DDR5 clock, data, and control signals. signals to measure and analyze the DDR5 clock, data, and control signals.
What protocols can the 86100D measure? The 86100D can measure a wide range of high-speed digital protocols, including optical and electrical signals. 86100D supports the following protocols. Optical protocols: The 86100D can measure a wide range of high-speed digital protocols, including optical and electrical signals:
- Optical protocols: The 86100D can measure optical signals from 50 MBd to over 80 GBd, including protocols for Fibre Channel, Ethernet, OTN, SONET/SDH, fiber optic interconnect, etc. The 86100D can use different optical modules, such as the 86105C/D, 86115D, 86116C/D, etc., to accommodate different wavelengths and rates.
- Electrical protocols: The 86100D can measure electrical signals from 50 MBd to over 40 Gb/s, including protocols such as PCI Express, SATA/SAS, USB, HDMI, DisplayPort, MIPI, etc. The 86100D can use different electrical modules such as 86108B/C, 86112D, 86118A, etc. to accommodate different voltages and impedances.
What measurement modes are available on the 86100D?The 86100D has the following measurement modes:
- Oscilloscope Mode: Provides high-fidelity waveform characterization, allowing you to measure waveform parameters such as amplitude, frequency, phase, and duty cycle.
- Eye Diagram/Mask Mode: Provides fast transmitter characterization using eye diagram analysis, calibrated reference receiver, and automatic mask margin analysis.
- Jitter Mode: Provides accurate jitter, amplitude and frequency analysis capabilities, allowing measurement of jitter type, magnitude, distribution, spectral density and other parameters.
- TDR/TDT Mode: Provides accurate time-domain reflected/transmitted impedance and S-parameter measurements, allowing measurement of parameters such as characteristic impedance, return loss, insertion loss, etc., for channels, cables and PCBs.
What is the resolution of the 86100D?
- In oscilloscope mode, the 86100D has a horizontal resolution of 1024 pixels and a vertical resolution of 768 pixels
- In eye diagram/mask mode, the 86100D has a horizontal resolution of 0.1 ps and a vertical resolution of 0.1%.
- In jitter mode, the 86100D has a time interval resolution of 0.01 ps and an amplitude interval resolution of 0.01
- In TDR/TDT mode, the 86100D has a temporal resolution of 3 ps and a spatial resolution of 0.45 mm.
What are the features of the 86100D?The 86100D is a high-performance, wide bandwidth oscilloscope that accurately measures the characteristics and quality of waveforms for high-speed digital designs.The 86100D has some of the following features:
- Supports up to 16 channels of simultaneous measurements with a bandwidth of over 90 GHz, jitter below 50 fs, and noise below 250 uV.
- Provides multiple measurement modes, including oscilloscope mode, eye diagram/mask mode, jitter mode, and TDR/TDT mode.
- Provides a variety of signal analysis functions, including de-embedding/embedding, equalization, phase-locked loop, phase noise, and custom analysis.
- Provides a variety of industry-standard mask test and reference receivers, as well as automatic mask margin analysis.
- Provides a variety of signal processing functions, including filtering, FFT, differential and integration functions.
What application scenarios can the 86100D be used for?
The 86100D can be used in a variety of high-speed digital design application scenarios, such as: Testing and verification of fiber optic communication systems, including optical modules, optical transceivers, and optical switches. It can measure and analyze waveforms, eye diagrams, jitter, spectrum, and other parameters of fiber optic signals to evaluate system performance and reliability. Testing and verification of high-speed serial buses, including PCI Express, USB 3.0, HDMI, SATA and so on. It measures and analyzes electrical signal waveforms, eye diagrams, jitter, spectrum, and other parameters to assess bus interoperability and signal integrity. Testing and verification of high-speed memory, including DDR3, DDR4, LPDDR4, etc. It measures and analyzes parameters such as waveform, eye diagram, jitter, spectrum, etc. of memory signals to assess the stability and performance of the memory. Testing and verification of high-speed analog circuits, including ADCs, DACs, PLLs, and so on. It measures and analyzes parameters such as waveform, eye diagram, jitter, spectrum, etc. of analog signals to evaluate the accuracy and noise of the circuits. These are just some of the typical application scenarios for the 86100D, which can also be used for testing and verification of other high-speed digital designs.
The KEYSIGHT 86100D is a wide bandwidth oscilloscope mainframe that can be used for testing and analyzing high-speed digital signals and fiber-optic communication systemsIt can be used with different modules, such as the 86105C, to achieve bandwidths of up to 90 GHz, as well as time-domain measurements, spectral analysis, and eye diagram analysisIt also offers ultra-low jitter and low-noise performance for fast, accurate, and consistent jitter measurementsIt's a high-performance oscilloscope for both optical and electrical designs.
What are the models of 86100D?86100D the following models:
- 86100D-001: has an enhanced trigger function that enables triggering and capturing of complex signals
- 86100D-002: features a built-in photodetector (PD) power supply that provides a stable bias voltage for the photodetector
- 86100D-003: features a built-in optical switch that can switch signals between multiple optical channels without reconnecting the optical fiber
- 86100D-004: With built-in optical attenuator, it can regulate the optical power of the input signal to avoid overload or underload.
- 86100D-005: with a built-in optical power meter, can measure the optical power and wavelength of the input signal
What types of signals can the 86100D measure?The 86100D measures the following types of signals:
- Optical Signal: 86100D can use photoelectric converter module or optical sampling module to directly sample or indirectly convert the optical signal, so as to obtain the waveform, eye diagram, jitter, mask and other parameters of the optical signal. 86100D supports a variety of optical standards, such as Ethernet, Fibre Channel, OTN, SONET/SDH etc. It also provides calibrated reference receivers and automatic mask analysis.
- Electrical Signal: 86100D can use electrical sampling module or electrical TDR/TDT module to capture and analyze electrical signals with high fidelity waveforms, so as to obtain the amplitude, frequency, phase, jitter, noise and other parameters of the electrical signals. 86100D supports a variety of electrical standards, such as PCI Express, USB, HDMI, MIPI, etc., and provides signal processing functions such as de-embedding/embedding and equalizer.
- TDR/TDT/S Parameters: 86100D can use electrical TDR/TDT module or optical TDR/TDT module to perform time domain reflection/transmission test on transmission media such as cable, PCB or fiber optic, so as to obtain the impedance, loss, return and other parameters of the media. 86100D can also convert the time domain data to frequency domain data to obtain the The 86100D can also convert time-domain data into frequency-domain data to obtain the S-parameters of the medium, and provide display methods such as Smith chart and polar plot.
Can the 86100D measure DDR5? The 86100D can measure DDR5 electrical signals, but specific modules and software are required. 86100D can use the 86108B/C electrical modules with the N6462A DDR4/DDR5 Compliance Test Software to measure and analyze DDR5 clock, data, and control signals. signals to measure and analyze the DDR5 clock, data, and control signals.
What protocols can the 86100D measure? The 86100D can measure a wide range of high-speed digital protocols, including optical and electrical signals. 86100D supports the following protocols. Optical protocols: The 86100D can measure a wide range of high-speed digital protocols, including optical and electrical signals:
- Optical protocols: The 86100D can measure optical signals from 50 MBd to over 80 GBd, including protocols for Fibre Channel, Ethernet, OTN, SONET/SDH, fiber optic interconnect, etc. The 86100D can use different optical modules, such as the 86105C/D, 86115D, 86116C/D, etc., to accommodate different wavelengths and rates.
- Electrical protocols: The 86100D can measure electrical signals from 50 MBd to over 40 Gb/s, including protocols such as PCI Express, SATA/SAS, USB, HDMI, DisplayPort, MIPI, etc. The 86100D can use different electrical modules such as 86108B/C, 86112D, 86118A, etc. to accommodate different voltages and impedances.
What measurement modes are available on the 86100D?The 86100D has the following measurement modes:
- Oscilloscope Mode: Provides high-fidelity waveform characterization, allowing you to measure waveform parameters such as amplitude, frequency, phase, and duty cycle.
- Eye Diagram/Mask Mode: Provides fast transmitter characterization using eye diagram analysis, calibrated reference receiver, and automatic mask margin analysis.
- Jitter Mode: Provides accurate jitter, amplitude and frequency analysis capabilities, allowing measurement of jitter type, magnitude, distribution, spectral density and other parameters.
- TDR/TDT Mode: Provides accurate time-domain reflected/transmitted impedance and S-parameter measurements, allowing measurement of parameters such as characteristic impedance, return loss, insertion loss, etc., for channels, cables and PCBs.
What is the resolution of the 86100D?
- In oscilloscope mode, the 86100D has a horizontal resolution of 1024 pixels and a vertical resolution of 768 pixels
- In eye diagram/mask mode, the 86100D has a horizontal resolution of 0.1 ps and a vertical resolution of 0.1%.
- In jitter mode, the 86100D has a time interval resolution of 0.01 ps and an amplitude interval resolution of 0.01
- In TDR/TDT mode, the 86100D has a temporal resolution of 3 ps and a spatial resolution of 0.45 mm.
What are the features of the 86100D?The 86100D is a high-performance, wide bandwidth oscilloscope that accurately measures the characteristics and quality of waveforms for high-speed digital designs.The 86100D has some of the following features:
- Supports up to 16 channels of simultaneous measurements with a bandwidth of over 90 GHz, jitter below 50 fs, and noise below 250 uV.
- Provides multiple measurement modes, including oscilloscope mode, eye diagram/mask mode, jitter mode, and TDR/TDT mode.
- Provides a variety of signal analysis functions, including de-embedding/embedding, equalization, phase-locked loop, phase noise, and custom analysis.
- Provides a variety of industry-standard mask test and reference receivers, as well as automatic mask margin analysis.
- Provides a variety of signal processing functions, including filtering, FFT, differential and integration functions.
What application scenarios can the 86100D be used for?
The 86100D can be used in a variety of high-speed digital design application scenarios, such as: Testing and verification of fiber optic communication systems, including optical modules, optical transceivers, and optical switches. It can measure and analyze waveforms, eye diagrams, jitter, spectrum, and other parameters of fiber optic signals to evaluate system performance and reliability. Testing and verification of high-speed serial buses, including PCI Express, USB 3.0, HDMI, SATA and so on. It measures and analyzes electrical signal waveforms, eye diagrams, jitter, spectrum, and other parameters to assess bus interoperability and signal integrity. Testing and verification of high-speed memory, including DDR3, DDR4, LPDDR4, etc. It measures and analyzes parameters such as waveform, eye diagram, jitter, spectrum, etc. of memory signals to assess the stability and performance of the memory. Testing and verification of high-speed analog circuits, including ADCs, DACs, PLLs, and so on. It measures and analyzes parameters such as waveform, eye diagram, jitter, spectrum, etc. of analog signals to evaluate the accuracy and noise of the circuits. These are just some of the typical application scenarios for the 86100D, which can also be used for testing and verification of other high-speed digital designs.