Product
Anritsu MP2110A MP1900A Difference? BERTWave Eye Mapper Oscilloscope All-in-One
2024.04.17
Anritsu demonstrated that its BERTWave MP2110A and MP1900A 56G PAM4 BERT can be combined to provide TDECQ measurements for 400Gbps optical chips and modules. This demonstrates that the MP1900A is a related product to the MP2110A and that the two can work together for specific types of testing.
Product
About MS9740A Anritsu Anritsu Spectrum Analyser Essentials, Bookmark this post!
2024.03.29
The MS9740A is a spectrum analyser manufactured by Anritsu for analysing optical signals in the wavelength range of 600 to 1750 nm.With its high-performance optical resolution and high-speed measurement capability, the MS9740A is capable of evaluating up to 300 channels of data and displaying the information required for WDM signal analysis, such as centre wavelength, level, signal-to-noise ratio, and so on.
Product
About MS9740B Anritsu Anritsu Spectrum Analyser Essentials, Bookmark this post!
2024.03.29
The MS9740B Spectrum Analyser is marketed primarily to the optical communications field where high accuracy, speed and wide dynamic range are required. Target user groups include, but are not limited to, R&D personnel in the optical communications industry, engineers manufacturing and evaluating 850 nm band VCSEL modules, and professionals conducting optical research and development.
Product
DSOV334A Keysight Infiniium V-Series Oscilloscopes
2024.03.26
Keysight Infiniium V-Series oscilloscopes offer industry-leading accuracy, 33 GHz analogue bandwidth, 4 analogue channels, sampling rates up to 80 GSa/s and 2 Gpts of acquisition memory for more complete signal trace capture.
Product
About AQ6370D Spectrum Analyser Essentials, Bookmark it and save it!
2024.03.25
The AQ6370D is a spectrum analyser manufactured by Yokogawa Electric Corporation and is mainly used in the telecommunication field. It offers a wavelength range of 600 nm to 1700 nm for a wide range of testing needs. The unit is known for its high performance and accuracy, with high wavelength accuracy of ±0.01 nm and high wavelength resolution of 0.02 nm.
Product
N7779C keysight Tunable Laser Source Description
2024.03.06
The new N7779C Base Series tunable laser source, like the other new N777xC models, is ideal for cost-effective testing of broadband optical devices because of its ability to step quickly to discrete wavelengths with resolutions up to 0.1 pm and typical wavelength repeatability of ±3 pm. Short wavelength setup times (e.g., 300 ms) enable fast step scanning. Like other laser sources in the N777xC family, it delivers peak output power in excess of +12 dBm and low spontaneous emission levels. With power stability of ±0.01 dB per hour, it can also be used as a static local oscillator with a wide tuning range for receiver testing or transmission experiments.
Product
N7714A keysight keysight Single Port Tunable Laser Source System Description
2024.02.29
The Keysight N7711A and N7714A tunable laser sources are available with a single port and four ports, respectively, in either C-band or L-band wavelength ranges. With narrow linewidths and finely adjustable bias grids, they are ideal for testing the real-world load performance of the latest launch systems. As with all other Yesotech tunable laser sources, all models can reach any wavelength point within their specified wavelength range.
Product
08
2024-04
Keysight 86100D Oscilloscope Eye Diagramming Optical Modules
The Keysight 86100D is a high-performance, wide-bandwidth oscilloscope designed for precise and accurate measurements of high-speed digital designs for applications ranging from 50 Mb/s to more than 80 Gb/s. The device delivers excellent performance with high analogue bandwidth, low jitter and low noise to accurately characterise both optical and electrical designs.The 86100D DCA-X is the main model of the modular platform that allows users to perform precision optical, electrical, and TDR/TDT measurements by selecting different insertion modules.
Product
03
2024-04
Difference between Anritsu MS9740B and MS9740A Spectrum Analysers?
The main differences between the MS9740B and the MS9740A are the reduction in measurement processing time and the application of high-speed signal processing technology.The MS9740B reduces measurement processing time by half while maintaining the original functions and performance. This has been achieved by increasing productivity and reducing measurement and inspection time, thereby increasing the productivity of optical active equipment manufacturers.
FQA
03
2024-04
MS9740B for DUT insertion loss evaluation, procedure?
To use the MS9740B for DUT (Device Under Test) insertion loss assessment, it is first necessary to understand the basic functions and configuration of the MS9740B, a high-precision spectral analyser that supports a wide range of fibre types, including SM fibre (ITU-T G.652) and GI fibre (50μm/125μm), as well as GI fibre (62.5μm/ 125 μm) and has high return loss performance.
Product
03
2024-04
About AQ6377 YOKOGAWA Spectrum Analyser Essence of YOKOGAWA Spectrum Analyser, Bookmark this page!
The AQ6377 is a spectrum analyser manufactured by Yokogawa Electric Corporation for environmental sensing and medical applications. It offers extended wavelength coverage from 1900 to 5500 nm and belongs to the mid-infrared (MWIR) region. The device employs dispersive spectroscopy technology to measure the optical spectrum of laser light in the range of 1.9 to 5.5 microns.
Industry
02
2024-04
What are optical communications and what are the industry trends? Optical communications?
Optical communication is a technology that uses light waves as an information carrier to transmit information through a transmission medium such as an optical fibre. It works by converting the transmitted information (e.g. voice) into an electrical signal at the transmitting end and then modulating it onto the laser beam emitted by the laser, so that the intensity of the light varies according to the amplitude (frequency) of the electrical signal and is sent out through the optical fibre; at the receiving end, the detector receives the optical signal and converts it into an electrical signal, which is demodulated to restore the original information.
FQA
02
2024-04
Difference between KEYSIGHT 86100D and N1092A oscilloscope?
The main difference between the 86100D and the N1092A lies in their areas of application and functionality.The 86100D is a wide bandwidth oscilloscope mainframe, primarily used for precise measurements of high-speed digital designs from 50 Mb/s to over 80 Gb/s.The N1092A/B/C/D/E series are multi-channel optical/electrical sampling oscilloscopes, controlled from a PC via USB. These devices provide different numbers of optical and electrical channel inputs on the front panel and are suitable for tasks such as optical waveform analysis.
FQA
02
2024-04
Difference between Yokogawa AQ6370D and AQ6370C Spectrum Analyser?
Specific improvements in data logging capabilities between the AQ6370D and the AQ6370C include data logging, gated sampling, resolution calibration, advanced marking capabilities, and an enhanced auto-scan mode. These improvements make the AQ6370D even more powerful in logging analysis results, such as in application scenarios such as WDM (wavelength division multiplexing), which provides more efficient and accurate data processing capability
FQA
01
2024-04
What are the main differences in performance and features between the Agilent 86100D and 86100B?
The Agilent 86100D offers significant differences and advantages over other similar products, such as the Agilent 86100B, in terms of measurement range, application areas, accuracy and ease of use, and characterisation performance.
FQA
01
2024-04
