FQA

MS9740B for DUT insertion loss evaluation, procedure?

2024.04.03
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.
FQA

Difference between KEYSIGHT 86100D and N1092A oscilloscope?

2024.04.02
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

Difference between Yokogawa AQ6370D and AQ6370C Spectrum Analyser?

2024.04.02
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

What are the main differences in performance and features between the Agilent 86100D and 86100B?

2024.04.01
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

2024.04.01
FQA

How to choose an eye diagram template for keysight FlexDCA software? keysight FlexDCA Software

2024.01.16
FlexDCA software runs on the YesTech Digital Communications Analyzer (DCA) family of sampling oscilloscopes (also known as equivalent time oscilloscopes). DCA can help you display and analyze the analog properties of high-speed signals, such as those used in wireline communications and data center links.FlexDCA is installed by the manufacturer on the DCA-X mainframe, or it can be installed on a computer to control the DCA-M or remotely control the DCA-X.
FQA

86100D How to Communicate Using a Computer Keysight DCA-X Oscilloscopes

2024.01.16
This paper proposes a simple solution for the 86100D DCA-X oscilloscope communication, the main ways of communication are: LAN connection, GPIB connection, the 86100D DCA-X oscilloscope combines high analog bandwidth, low jitter and low noise performance, and is able to accurately characterize optical and electrical designs ranging from 50Mb/s to 40Gb/s (and above).
FQA

What is the difference between DWDM and CWDM? What are the advantages and disadvantages?

2024.01.12
DWDM and CWDM are two optical wavelength division multiplexing technologies that multiplex multiple optical signals of different wavelengths into a single optical fiber for transmission, improving fiber utilization and transmission capacity.
FQA

What is XGS-PON and how does XGS-PON coexist with GPON and XG-PON?

2024.01.12
XGS-PON is a symmetric 10G PON technology, which is the technical evolution of GPON and XG-PON.XGS-PON can share the same optical distribution network (ODN) with GPON and XG-PON, and supports the mixed access of three types of ONUs.XGS-PON's coexistence scheme mainly relies on the Combo Optical Module and the wavelength division multiplexing (WDM) technology to realize the separation and multiplexing of optical signals of different wavelengths and rates. The XGS-PON coexistence solution mainly relies on Combo Optical Module and Wavelength Division Multiplexing (WDM) technology, which realizes separation and multiplexing of optical signals of different wavelengths and rates.
FAQ- Mega Tech- General Electronic Test and Measurement Instruments Technology Services, Inc. FAQ- Mega Tech- General Electronic Test and Measurement Instruments Technology Services, Inc.
FAQ- Mega Tech- General Electronic Test and Measurement Instruments Technology Services, Inc. FAQ- Mega Tech- General Electronic Test and Measurement Instruments Technology Services, Inc.
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.
View More
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.
View More
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
View More
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.
View More
FQA
01
2024-04

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FQA
19
2024-03

What applications are the Santec TSL Series lasers suitable for?

Santec's TSL series of tunable lasers are suitable for a variety of application scenarios including, but not limited to: optical device testing, silicon photonic material characterisation, spectroscopy, interferometry
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FQA
19
2024-03

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FQA
19
2024-03

What types of lasers does Santec have? TSL Series, HSL Series, Tunable Vertical Cavity Surface Emitting Lasers (VCSEL)

Santec is a photonics company based in Komaki, Aichi, Japan, founded in 1979. It specialises in the development and manufacture of tunable lasers, optical test and measurement products, advanced optical components, and bio-photonics devices.Santec's products are used in applications such as optical communications, testing of optical devices, optical imaging/sensing and medical devices.
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FQA
14
2024-03

Yokogawa, Anritsu, Agilent, what is the difference between spectral analysers?

Yokogawa, Anritsu, and Agilent are all well-known manufacturers of spectrum analysers, and each of their products has its own features and advantages. Here is a brief comparison of the differences between their spectrum analysers:
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