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, which is capable of measuring the optical spectrum of laser light in the range of 1.9 to 5.5 µm.Key features of the AQ6377 include a gas-purge input port/output port, as well as high resolution and sensitivity, enabling the detection of water molecules in the air.
In addition, the AQ6377 is one of the industry's leading spectrum analysers, with a wavelength resolution of 200 picometres, which is three times the wavelength of interferometer-type instruments operating in a 5 micron bandwidth. It also has two additional features, including the ability to remove water vapour that absorbs light.The AQ6377 has a dynamic range of 73 dB, demonstrating its ability to accurately measure the optical spectrum.
This feature is a significant advancement for researchers, enabling them to work with different pulse lengths and repetition rates.The AQ6377 is designed to enhance optical devices within the 5 micron bandwidth and accelerate their use in environmental measurements and other fields.
The AQ6377 is a high-performance spectrum analyser for application scenarios that require high accuracy and sensitivity, such as environmental sensing, medical applications, and aerospace.
What are the exact specifications of the AQ6377 Spectrum Analyser?
The specific technical specifications of the AQ6377 spectrum analyser include:
Wavelength range: 1900 ~ 5500nm 323437.
Wavelength resolution setting: 0.2 ~ 5nm 3740.
Ultra-wide measurable power range: -60 ~ +13dBm 40.
Wavelength accuracy: ± 0.5nm 40.
In addition, AQ6377 adopts diffraction principle and dispersion spectroscopy technology, mainly used for laser measurement in mid-infrared, effectively solving the problem of mid-infrared laser measurement waveform. It covers the MWIR region and is commonly used for environmental detection and medical applications .
What are the specific cases of AQ6377 in environmental sensing and medical applications?
Specific examples of the AQ6377 spectrum analyser in environmental sensing and medical applications include:
Environmental Sensing:
The AQ6377 covers the MWIR region and is commonly used for environmental sensing. This indicates that it can be used to monitor gaseous components in the atmosphere, such as greenhouse gases, pollutants, etc., which is important for environmental protection and atmospheric observation.
Its long wavelength range makes it ideal for environmental sensing, meaning that the AQ6377 can be used for more accurate environmental monitoring, including but not limited to air quality monitoring, water pollution detection, etc.
Medical Applications:
Applications for the AQ6377 also include healthcare, which may involve using its spectral analysis capabilities to diagnose disease or monitor a patient's health. For example, by analysing the spectral response at specific wavelengths, it may help to identify certain types of cancer or other diseases.
While specific medical use cases are not detailed, the AQ6377 has the potential to play an important role in biomedical research, drug development, and clinical diagnostics, given its wide operating wavelength range (1900-5500nm) and high sensitivity. This is especially the case where high precision spectral analysis is required to differentiate between different biological tissues or molecules.
Due to its unique wavelength coverage and high-performance parameters, the AQ6377 spectral analyser shows potential for a wide range of applications in environmental sensing and medical applications. Although specific application cases are not described in detail, its important role and potential value in these fields can be inferred from the description of its technical characteristics and application areas.
How does the dispersive spectroscopy technique of the AQ6377 work?
The Yokogawa AQ6377 spectrometer works based on the principle of diffraction, which is different from conventional interferometric spectrometers. It is mainly applied to measurements of mid-infrared lasers, and in particular provides an effective solution to waveform problems with mid-infrared lasers.The AQ6377 uses dispersive spectroscopy. Dispersion spectroscopy allows the instrument to measure spectra in a specific wavelength range, which is essential for analysing the wavelength components of photonic devices such as semiconductor lasers and fibre lasers to evaluate their wavelength characteristics.
In addition, one of the major technical advantages of the Yokogawa AQ6377 is that its power dynamic range is much larger than that of conventional interferometer-type instruments operating in the 5μm band, specifically, 2000 times larger. This feature enables the AQ6377 to measure and analyse spectra more accurately, especially where high precision measurements are required.
One of Yokogawa's objectives in developing the AQ6377 was to further develop and refine its accumulated technology in dispersive spectroscopy to accurately measure spectra in the visible and near-infrared ranges. This demonstrates Yokogawa's deep technological foundation and extensive experience in dispersive spectroscopy technology, all of which support the high performance of the AQ6377.
The AQ6377's dispersive spectroscopy technology enables accurate measurement of the wavelength characteristics of photonic devices such as mid-infrared lasers by utilising the principle of diffraction and dispersive spectroscopy in combination with Yokogawa's accumulated know-how in this field. Its unique power dynamic range further enhances its application capabilities in the field of spectral analysis.
What are the advantages and features of AQ6377 compared with other similar spectrum analysers?
The AQ6377 spectrum analyser has the following advantages and features over other similar spectrum analysers:
Wide wavelength range: The AQ6377 has a wavelength range of 1900 ~ 5500nm, covering the mid-wavelength infrared (MWIR) region, which is commonly used for environmental testing and medical applications. This wide wavelength range makes it suitable for many different measurement needs.
Versatile wavelength resolution settings: The AQ6377 offers 5 wavelength resolution settings from 0.2 ~ 5nm, allowing the user to select the optimal wavelength resolution value based on the needs of the device/system under test. This flexibility allows the AQ6377 to meet measurement needs with different accuracy requirements.
High-performance dynamic range: The AQ6377 has a power dynamic range of 73 dB and a near-field dynamic range of 50 dB, which is 2,000 times greater than the power dynamic range and 10 times greater than the near-field dynamic range of interferometer-type instruments that operate in the 5μm band. This high-performance dynamic range is critical for accurate measurements, especially in application scenarios where high sensitivity and low noise levels are required.
Closed Loop Purge Gas Supply: The AQ6377's monochromator is configured with a closed loop loop for air purification, which continuously delivers pure purge gas, such as nitrogen or even dry air, through a port on the rear panel. This design helps to reduce interference that may be caused by environmental factors during the detection process, improving the accuracy and reliability of measurements.
The AQ6377 Spectrum Analyser demonstrates unique advantages and features in terms of wavelength range, wavelength resolution settings, dynamic range and closed-loop purge gas supply, which make it stand out from other products in its class.
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, which is capable of measuring the optical spectrum of laser light in the range of 1.9 to 5.5 µm.Key features of the AQ6377 include a gas-purge input port/output port, as well as high resolution and sensitivity, enabling the detection of water molecules in the air.
In addition, the AQ6377 is one of the industry's leading spectrum analysers, with a wavelength resolution of 200 picometres, which is three times the wavelength of interferometer-type instruments operating in a 5 micron bandwidth. It also has two additional features, including the ability to remove water vapour that absorbs light.The AQ6377 has a dynamic range of 73 dB, demonstrating its ability to accurately measure the optical spectrum.
This feature is a significant advancement for researchers, enabling them to work with different pulse lengths and repetition rates.The AQ6377 is designed to enhance optical devices within the 5 micron bandwidth and accelerate their use in environmental measurements and other fields.
The AQ6377 is a high-performance spectrum analyser for application scenarios that require high accuracy and sensitivity, such as environmental sensing, medical applications, and aerospace.
What are the exact specifications of the AQ6377 Spectrum Analyser?
The specific technical specifications of the AQ6377 spectrum analyser include:
Wavelength range: 1900 ~ 5500nm 323437.
Wavelength resolution setting: 0.2 ~ 5nm 3740.
Ultra-wide measurable power range: -60 ~ +13dBm 40.
Wavelength accuracy: ± 0.5nm 40.
In addition, AQ6377 adopts diffraction principle and dispersion spectroscopy technology, mainly used for laser measurement in mid-infrared, effectively solving the problem of mid-infrared laser measurement waveform. It covers the MWIR region and is commonly used for environmental detection and medical applications .
What are the specific cases of AQ6377 in environmental sensing and medical applications?
Specific examples of the AQ6377 spectrum analyser in environmental sensing and medical applications include:
Environmental Sensing:
The AQ6377 covers the MWIR region and is commonly used for environmental sensing. This indicates that it can be used to monitor gaseous components in the atmosphere, such as greenhouse gases, pollutants, etc., which is important for environmental protection and atmospheric observation.
Its long wavelength range makes it ideal for environmental sensing, meaning that the AQ6377 can be used for more accurate environmental monitoring, including but not limited to air quality monitoring, water pollution detection, etc.
Medical Applications:
Applications for the AQ6377 also include healthcare, which may involve using its spectral analysis capabilities to diagnose disease or monitor a patient's health. For example, by analysing the spectral response at specific wavelengths, it may help to identify certain types of cancer or other diseases.
While specific medical use cases are not detailed, the AQ6377 has the potential to play an important role in biomedical research, drug development, and clinical diagnostics, given its wide operating wavelength range (1900-5500nm) and high sensitivity. This is especially the case where high precision spectral analysis is required to differentiate between different biological tissues or molecules.
Due to its unique wavelength coverage and high-performance parameters, the AQ6377 spectral analyser shows potential for a wide range of applications in environmental sensing and medical applications. Although specific application cases are not described in detail, its important role and potential value in these fields can be inferred from the description of its technical characteristics and application areas.
How does the dispersive spectroscopy technique of the AQ6377 work?
The Yokogawa AQ6377 spectrometer works based on the principle of diffraction, which is different from conventional interferometric spectrometers. It is mainly applied to measurements of mid-infrared lasers, and in particular provides an effective solution to waveform problems with mid-infrared lasers.The AQ6377 uses dispersive spectroscopy. Dispersion spectroscopy allows the instrument to measure spectra in a specific wavelength range, which is essential for analysing the wavelength components of photonic devices such as semiconductor lasers and fibre lasers to evaluate their wavelength characteristics.
In addition, one of the major technical advantages of the Yokogawa AQ6377 is that its power dynamic range is much larger than that of conventional interferometer-type instruments operating in the 5μm band, specifically, 2000 times larger. This feature enables the AQ6377 to measure and analyse spectra more accurately, especially where high precision measurements are required.
One of Yokogawa's objectives in developing the AQ6377 was to further develop and refine its accumulated technology in dispersive spectroscopy to accurately measure spectra in the visible and near-infrared ranges. This demonstrates Yokogawa's deep technological foundation and extensive experience in dispersive spectroscopy technology, all of which support the high performance of the AQ6377.
The AQ6377's dispersive spectroscopy technology enables accurate measurement of the wavelength characteristics of photonic devices such as mid-infrared lasers by utilising the principle of diffraction and dispersive spectroscopy in combination with Yokogawa's accumulated know-how in this field. Its unique power dynamic range further enhances its application capabilities in the field of spectral analysis.
What are the advantages and features of AQ6377 compared with other similar spectrum analysers?
The AQ6377 spectrum analyser has the following advantages and features over other similar spectrum analysers:
Wide wavelength range: The AQ6377 has a wavelength range of 1900 ~ 5500nm, covering the mid-wavelength infrared (MWIR) region, which is commonly used for environmental testing and medical applications. This wide wavelength range makes it suitable for many different measurement needs.
Versatile wavelength resolution settings: The AQ6377 offers 5 wavelength resolution settings from 0.2 ~ 5nm, allowing the user to select the optimal wavelength resolution value based on the needs of the device/system under test. This flexibility allows the AQ6377 to meet measurement needs with different accuracy requirements.
High-performance dynamic range: The AQ6377 has a power dynamic range of 73 dB and a near-field dynamic range of 50 dB, which is 2,000 times greater than the power dynamic range and 10 times greater than the near-field dynamic range of interferometer-type instruments that operate in the 5μm band. This high-performance dynamic range is critical for accurate measurements, especially in application scenarios where high sensitivity and low noise levels are required.
Closed Loop Purge Gas Supply: The AQ6377's monochromator is configured with a closed loop loop for air purification, which continuously delivers pure purge gas, such as nitrogen or even dry air, through a port on the rear panel. This design helps to reduce interference that may be caused by environmental factors during the detection process, improving the accuracy and reliability of measurements.
The AQ6377 Spectrum Analyser demonstrates unique advantages and features in terms of wavelength range, wavelength resolution settings, dynamic range and closed-loop purge gas supply, which make it stand out from other products in its class.