Difference between Yokogawa AQ6370E 10 and AQ6370E 20 spectrometer?
The Yokogawa AQ6370E 10 and AQ6370E 20 spectral analysers belong to the same family but are different.The AQ6370E 20 is a high-performance version with higher wavelength accuracy and dynamic range, as well as more advanced measurement modes and higher stray light rejection. Specifically, the AQ6370E 20 has higher wavelength accuracy and dynamic range, providing more accurate and clearer spectral measurements.The AQ6370E 20 also features a new measurement mode called HCDR (High Near Peak Dynamic Range) mode, which enables sharper spectral curves and clearer side modes for single longitudinal mode laser measurements. The AQ6370E 10, on the other hand, has lower wavelength accuracy and dynamic range, but is cheaper and suitable for general spectral measurement applications.
If you need to make more accurate spectral measurements, especially those involving single longitudinal mode lasers, then the AQ6370E 20 would be a better choice. If you have a limited budget and don't require particularly high measurement accuracy, then the AQ6370E 10 can also meet basic spectral measurement needs.
What are the improvements in wavelength accuracy of the Yokogawa AQ6370E 20 over the AQ6370E 10?
The AQ6370E 20 has a significant improvement in wavelength accuracy over the AQ6370E 10, which is very beneficial for applications requiring high precision wavelength measurements.
Improved wavelength accuracy: The wavelength accuracy of the AQ6370E 20 has been improved compared to the AQ6370E 10, especially in certain wavelength ranges, where the AQ6370E 20 can achieve a wavelength accuracy of ±0.01nm, compared to ±0.02nm for the AQ6370E 10.
Expanded dynamic range: The dynamic range of the AQ6370E 20 has also been increased compared to the AQ6370E 10, which means that the AQ6370E 20 is better able to handle signals in high illuminance and dark light areas, resulting in improved measurement accuracy.
Function optimisation: The AQ6370E 20 also introduces new functions such as HCDR (High Contrast Dynamic Range) mode and SMSR (Side Mode Suppression Ratio) mode, which can further improve the accuracy and efficiency of measurements.
How does the Yokogawa AQ6370E's HCDR mode work?
The Yokogawa AQ6370E features high-speed measurement capability and a variety of advanced measurement modes. HCDR (High Near Peak Dynamic Range) mode is a new measurement mode added to the AQ6370E, which significantly improves the near-peak dynamic range up to 70 dB (typical) without affecting the measurement speed.
In HCDR mode, the spectrum analyser employs special algorithms and hardware design that enable it to capture weak signals more accurately while suppressing saturation effects caused by strong signals when measuring high spectral density regions. This mode is particularly suitable for measuring the spectra of single longitudinal mode lasers, as it clearly shows the characteristics of the side modes, thus helping users to better understand and evaluate the performance of the laser.
The HCDR mode also has a high stray light rejection rate of up to 80 dB (typical), which means that even the presence of strong stray light interference during the measurement process will not affect the results too much. This feature allows the AQ6370E 20 to maintain good measurement performance even in complex optical environments.
The AQ6370E's HCDR mode achieves high-speed, high-dynamic-range spectral measurements through optimised measurement algorithms and hardware design, providing users with more accurate and reliable measurement results.
What spectral measurement scenarios is the Yokogawa AQ6370E suitable for?
The AQ6370E is a high-performance spectral analyser that is suitable for a wide range of spectral measurement scenarios, especially in the measurement of spectral characteristics of optical communications, optical devices and light sources. Here are some specific application scenarios:
Optical communication testing: AQ6370E can be used to test communication systems such as passive/active device production and WDM systems. Its high accuracy and wide dynamic range enable it to play an important role in telecommunication, active device development, passive device development, and fields using light sources.
Measurement of optical devices and light sources: The AQ6370E can measure single-mode and multimode fibres, and is suitable for measuring the spectral characteristics of optical devices such as single-mode lasers, optical transceivers and optical amplifiers.
Research and Education: Due to its high accuracy and flexibility, the AQ6370E is also suitable for research and education, where it can be used to conduct spectroscopy research and teaching experiments.
Industrial manufacturing: The AQ6370E can meet the typical measurement needs of industrial manufacturing, such as commissioning and performance evaluation of lasers, optical wavelength converters and other equipment.
Environmental monitoring: The high accuracy and wide dynamic range of the AQ6370E enable its use in environmental monitoring, such as spectral analysis of atmospheric pollutants.
Biomedical: In the biomedical field, the AQ6370E can be used for spectral imaging of cells and tissues, as well as spectral analysis of biomolecules.
Consumer products: In the consumer products field, the AQ6370E can be used for ingredient analysis and quality control of cosmetics, food and pharmaceuticals.
The Yokogawa AQ6370E is a versatile spectral analyser that meets a wide range of spectral measurement needs, and has a wide range of applications in the scientific, industrial and commercial fields.
The Yokogawa AQ6370E 10 and AQ6370E 20 spectral analysers belong to the same family but are different.The AQ6370E 20 is a high-performance version with higher wavelength accuracy and dynamic range, as well as more advanced measurement modes and higher stray light rejection. Specifically, the AQ6370E 20 has higher wavelength accuracy and dynamic range, providing more accurate and clearer spectral measurements.The AQ6370E 20 also features a new measurement mode called HCDR (High Near Peak Dynamic Range) mode, which enables sharper spectral curves and clearer side modes for single longitudinal mode laser measurements. The AQ6370E 10, on the other hand, has lower wavelength accuracy and dynamic range, but is cheaper and suitable for general spectral measurement applications.
If you need to make more accurate spectral measurements, especially those involving single longitudinal mode lasers, then the AQ6370E 20 would be a better choice. If you have a limited budget and don't require particularly high measurement accuracy, then the AQ6370E 10 can also meet basic spectral measurement needs.
What are the improvements in wavelength accuracy of the Yokogawa AQ6370E 20 over the AQ6370E 10?
The AQ6370E 20 has a significant improvement in wavelength accuracy over the AQ6370E 10, which is very beneficial for applications requiring high precision wavelength measurements.
Improved wavelength accuracy: The wavelength accuracy of the AQ6370E 20 has been improved compared to the AQ6370E 10, especially in certain wavelength ranges, where the AQ6370E 20 can achieve a wavelength accuracy of ±0.01nm, compared to ±0.02nm for the AQ6370E 10.
Expanded dynamic range: The dynamic range of the AQ6370E 20 has also been increased compared to the AQ6370E 10, which means that the AQ6370E 20 is better able to handle signals in high illuminance and dark light areas, resulting in improved measurement accuracy.
Function optimisation: The AQ6370E 20 also introduces new functions such as HCDR (High Contrast Dynamic Range) mode and SMSR (Side Mode Suppression Ratio) mode, which can further improve the accuracy and efficiency of measurements.
How does the Yokogawa AQ6370E's HCDR mode work?
The Yokogawa AQ6370E features high-speed measurement capability and a variety of advanced measurement modes. HCDR (High Near Peak Dynamic Range) mode is a new measurement mode added to the AQ6370E, which significantly improves the near-peak dynamic range up to 70 dB (typical) without affecting the measurement speed.
In HCDR mode, the spectrum analyser employs special algorithms and hardware design that enable it to capture weak signals more accurately while suppressing saturation effects caused by strong signals when measuring high spectral density regions. This mode is particularly suitable for measuring the spectra of single longitudinal mode lasers, as it clearly shows the characteristics of the side modes, thus helping users to better understand and evaluate the performance of the laser.
The HCDR mode also has a high stray light rejection rate of up to 80 dB (typical), which means that even the presence of strong stray light interference during the measurement process will not affect the results too much. This feature allows the AQ6370E 20 to maintain good measurement performance even in complex optical environments.
The AQ6370E's HCDR mode achieves high-speed, high-dynamic-range spectral measurements through optimised measurement algorithms and hardware design, providing users with more accurate and reliable measurement results.
What spectral measurement scenarios is the Yokogawa AQ6370E suitable for?
The AQ6370E is a high-performance spectral analyser that is suitable for a wide range of spectral measurement scenarios, especially in the measurement of spectral characteristics of optical communications, optical devices and light sources. Here are some specific application scenarios:
Optical communication testing: AQ6370E can be used to test communication systems such as passive/active device production and WDM systems. Its high accuracy and wide dynamic range enable it to play an important role in telecommunication, active device development, passive device development, and fields using light sources.
Measurement of optical devices and light sources: The AQ6370E can measure single-mode and multimode fibres, and is suitable for measuring the spectral characteristics of optical devices such as single-mode lasers, optical transceivers and optical amplifiers.
Research and Education: Due to its high accuracy and flexibility, the AQ6370E is also suitable for research and education, where it can be used to conduct spectroscopy research and teaching experiments.
Industrial manufacturing: The AQ6370E can meet the typical measurement needs of industrial manufacturing, such as commissioning and performance evaluation of lasers, optical wavelength converters and other equipment.
Environmental monitoring: The high accuracy and wide dynamic range of the AQ6370E enable its use in environmental monitoring, such as spectral analysis of atmospheric pollutants.
Biomedical: In the biomedical field, the AQ6370E can be used for spectral imaging of cells and tissues, as well as spectral analysis of biomolecules.
Consumer products: In the consumer products field, the AQ6370E can be used for ingredient analysis and quality control of cosmetics, food and pharmaceuticals.
The Yokogawa AQ6370E is a versatile spectral analyser that meets a wide range of spectral measurement needs, and has a wide range of applications in the scientific, industrial and commercial fields.