The AQ6370E is a high-performance spectrum analyser, manufactured by Yokogawa Test and Measurement. It can measure a wavelength range from 600 nm to 1700 nm and is suitable for communications and general-purpose applications. It features high wavelength accuracy, high wavelength resolution, high dynamic range and wide level range. It also features a fast measurement mode, a high near-end dynamic range mode, APP functionality and a large touch screen LCD. It is a powerful, easy-to-operate and stable spectrum analyser.
AQ6370E Yokogawa Optical Spectrometer (OSA) FAQs
What industries can the AQ6370E Yokogawa Optical Spectrum Analyser be used in?
- Optical communication: AQ6370E can measure various light sources in optical fibre communication systems, such as laser diodes, wavelength division multiplexing (WDM) signals, optical amplifiers, pump lasers, Raman amplifiers, and so on. It can analyse spectral parameters such as wavelength, power, signal-to-noise ratio, channel spacing, channel number, inter-channel crosstalk, channel flatness, channel offset, channel drift, channel stability, channel fluctuation, channel polarization, channel dispersion, and channel nonlinearity. It can help optimise the design, commissioning, maintenance and troubleshooting of optical communication systems.
- Fibre optic sensing: AQ6370E can measure various light sources in fibre optic sensing system, such as fibre laser, fibre grating, fibre Bragg grating (FBG), fibre optic Raman scattering (FORS), fibre optic Brillouin scattering (FBS), fibre optic Raman amplifier (FRA), fibre optic optical coherence tomography (OCT) and so on. It can analyse spectral parameters such as wavelength, power, reflectance, transmittance, attenuation, gain, bandwidth, central wavelength, wavelength drift, wavelength stability, wavelength fluctuation, wavelength polarization, wavelength dispersion, and wavelength nonlinearity. It can help optimise the design, commissioning, maintenance and troubleshooting of fibre optic sensing systems.
- Spectrometer: AQ6370E can measure the output spectra of various spectrometers, such as Absorption Spectrometer, Emission Spectrometer, Fluorescence Spectrometer, Raman Spectrometer, Infrared Spectrometer, Ultraviolet Spectrometer, Visible Spectrometer, Near-Infrared Spectrometer, Medium-Infrared Spectrometer, and Far-Infrared Spectrometer. It can analyse spectral parameters such as wavelength, power, peak, valley, peak to valley ratio, peak width, peak shape, peak position, peak bias, peak drift, peak stability, peak wave, peak polarization, peak dispersion, peak nonlinearity and so on. It can help optimise the design, commissioning, maintenance and troubleshooting of the spectrometer.
- Optical Properties: AQ6370E can measure the optical properties of various optical devices and materials, such as lenses, filters, beamsplitters, reflectors, polarizers, optical modulators, optical switches, optical attenuators, optical isolators, optical couplers, optical waveguides, optical fibers, optical crystals, optical coatings, optical films, optical glass, optical plastics, optical ceramics, optical liquid crystals, optical polymers, and so on. Optical polymers, etc. It can analyze spectral parameters such as wavelength, power, reflectance, transmittance, attenuation, gain, bandwidth, dispersion, chromatic aberration, colour temperature, colour coordinates, colour purity, colour saturation, hue, hue, colour, colour capacity, chromaticity, chromaticity diagram, chromaticity coordinates, chromaticity function, chromaticity matching, chromaticity adaptation, chromaticity difference, chromaticity contrast, chromaticity space, chromaticity system, chromaticity meter, chromatometer and so on. It can help to optimise the design, manufacture, testing and application of optical devices and materials .
AQ6370E Yokogawa for optical testing?
- You need to connect the AQ6370E to the power supply and input the optical signal under test to the optical fibre interface of the AQ6370E. You can choose between FC or SC type interfaces, depending on the type of fibre you have.The AQ6370E's free-space input is designed to work with both single-mode and multimode fibres.
- Set the measurement parameters of the AQ6370E, such as wavelength range, resolution, sensitivity, scanning speed, and so on. You can operate the AQ6370E's touch screen using the front panel keys, mouse or keyboard, or control the AQ6370E using the remote interface (Ethernet or GP-IB).
- Start the AQ6370E measurement and observe the spectral curve on the screen. You can use the Curve Zoom function to zoom in on the region of interest and the Marker function to read spectral data such as wavelength, power, signal-to-noise ratio, wavelength spacing, and so on.
- You can save measurement results to the AQ6370E's memory or USB storage device, or transfer them to a remote computer. You can choose to save single or multiple spectral curves, or save a spectral data table.
AQ6370E vs AQ6370D Advantages? Improvement?
- The AQ6370E has a faster measurement speed, which can reach 0.2 sec/100nm, twice as fast as the AQ6370D.
- AQ6370E has 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 has a higher stray light rejection of up to 80dB (typical), eliminating the need to use the large dynamic measurement mode and reducing measurement time.
- The AQ6370E has a larger touch screen for easier operation and also supports APP function for more customised settings and data processing.
- The AQ6370E is a high-performance spectrum analyser that can be used to measure the spectral characteristics of optical communications, optical devices and light sources, and is an upgraded version of the AQ6370D.
How many versions of the AQ6370E Yokogawa are available?
- The High Performance version (-20) has higher wavelength accuracy and dynamic range to provide more accurate and clearer spectral measurements.
- The High Performance version (-20) has a new measurement mode called HCDR (High Near Peak Dynamic Range) mode, which provides sharper spectral curves and clearer side modes for single longitudinal mode laser measurements.
- The High Performance version (-20) has a higher stray light rejection of up to 80dB (typical), eliminating the need for the Large Dynamic Measurement Mode and shortening the measurement time.
- The standard version (-10) has lower wavelength accuracy and dynamic range, but is cheaper and suitable for general spectral measurement applications.
What is the HCDR measurement mode of the Yokogawa AQ6370E?
HCDR stands for High Near-Earth Dynamic Range and is a special measurement mode of the AQ6370E spectrum analyser, which is only available on the high-performance model (-20).The HCDR mode allows the spectral waveform of a single longitudinal-mode laser to be sharper near the peak, and also shows the fringe modes better. This mode is very useful for research and development of lasers and optical devices, providing higher precision characterisation.
AQ6370E Yokogawa Spectrum Analyser, what other measurement modes are available?
- Wavelength Scanning Mode: This is the basic measurement mode of the AQ6370E, which can scan within the set wavelength range, display the spectral waveform, and provide various analysis functions, such as wavelength, power, signal-to-noise ratio, waveform aberration, channel spacing, number of channels, channel flatness, and channel isolation.
- Wavelength tracking mode: This is a special measurement mode of AQ6370E, which can track the wavelength change of the light source in real time and display the values of wavelength and power. This mode is suitable for debugging tunable lasers, optical wavelength converters and other equipment.
- Wavelength Repeatability Test Mode: This is a special measurement mode of the AQ6370E that measures the wavelength repeatability of the light source, i.e. the wavelength stability of the light source under the same input conditions. This mode is suitable for evaluating the performance and quality of lasers.
- SMSR mode: This is a special measurement mode of the AQ6370E that quickly measures the Side Mode Suppression Ratio (SMSR) of the light source, i.e. the power ratio between the primary and secondary modes. This mode reduces measurement time and improves efficiency.
- HCDR Mode: This is a special measurement mode for the AQ6370E that is only available on the High Performance model (-20).The HCDR mode allows the spectral waveform of a single longitudinal mode laser to be sharper near the peak, while also providing a better indication of edge modes. This mode is very useful for research and development of lasers and optical devices, providing higher precision characterisation.
The AQ6370E is a high-performance spectrum analyser, manufactured by Yokogawa Test and Measurement. It can measure a wavelength range from 600 nm to 1700 nm and is suitable for communications and general-purpose applications. It features high wavelength accuracy, high wavelength resolution, high dynamic range and wide level range. It also features a fast measurement mode, a high near-end dynamic range mode, APP functionality and a large touch screen LCD. It is a powerful, easy-to-operate and stable spectrum analyser.
AQ6370E Yokogawa Optical Spectrometer (OSA) FAQs
What industries can the AQ6370E Yokogawa Optical Spectrum Analyser be used in?
- Optical communication: AQ6370E can measure various light sources in optical fibre communication systems, such as laser diodes, wavelength division multiplexing (WDM) signals, optical amplifiers, pump lasers, Raman amplifiers, and so on. It can analyse spectral parameters such as wavelength, power, signal-to-noise ratio, channel spacing, channel number, inter-channel crosstalk, channel flatness, channel offset, channel drift, channel stability, channel fluctuation, channel polarization, channel dispersion, and channel nonlinearity. It can help optimise the design, commissioning, maintenance and troubleshooting of optical communication systems.
- Fibre optic sensing: AQ6370E can measure various light sources in fibre optic sensing system, such as fibre laser, fibre grating, fibre Bragg grating (FBG), fibre optic Raman scattering (FORS), fibre optic Brillouin scattering (FBS), fibre optic Raman amplifier (FRA), fibre optic optical coherence tomography (OCT) and so on. It can analyse spectral parameters such as wavelength, power, reflectance, transmittance, attenuation, gain, bandwidth, central wavelength, wavelength drift, wavelength stability, wavelength fluctuation, wavelength polarization, wavelength dispersion, and wavelength nonlinearity. It can help optimise the design, commissioning, maintenance and troubleshooting of fibre optic sensing systems.
- Spectrometer: AQ6370E can measure the output spectra of various spectrometers, such as Absorption Spectrometer, Emission Spectrometer, Fluorescence Spectrometer, Raman Spectrometer, Infrared Spectrometer, Ultraviolet Spectrometer, Visible Spectrometer, Near-Infrared Spectrometer, Medium-Infrared Spectrometer, and Far-Infrared Spectrometer. It can analyse spectral parameters such as wavelength, power, peak, valley, peak to valley ratio, peak width, peak shape, peak position, peak bias, peak drift, peak stability, peak wave, peak polarization, peak dispersion, peak nonlinearity and so on. It can help optimise the design, commissioning, maintenance and troubleshooting of the spectrometer.
- Optical Properties: AQ6370E can measure the optical properties of various optical devices and materials, such as lenses, filters, beamsplitters, reflectors, polarizers, optical modulators, optical switches, optical attenuators, optical isolators, optical couplers, optical waveguides, optical fibers, optical crystals, optical coatings, optical films, optical glass, optical plastics, optical ceramics, optical liquid crystals, optical polymers, and so on. Optical polymers, etc. It can analyze spectral parameters such as wavelength, power, reflectance, transmittance, attenuation, gain, bandwidth, dispersion, chromatic aberration, colour temperature, colour coordinates, colour purity, colour saturation, hue, hue, colour, colour capacity, chromaticity, chromaticity diagram, chromaticity coordinates, chromaticity function, chromaticity matching, chromaticity adaptation, chromaticity difference, chromaticity contrast, chromaticity space, chromaticity system, chromaticity meter, chromatometer and so on. It can help to optimise the design, manufacture, testing and application of optical devices and materials .
AQ6370E Yokogawa for optical testing?
- You need to connect the AQ6370E to the power supply and input the optical signal under test to the optical fibre interface of the AQ6370E. You can choose between FC or SC type interfaces, depending on the type of fibre you have.The AQ6370E's free-space input is designed to work with both single-mode and multimode fibres.
- Set the measurement parameters of the AQ6370E, such as wavelength range, resolution, sensitivity, scanning speed, and so on. You can operate the AQ6370E's touch screen using the front panel keys, mouse or keyboard, or control the AQ6370E using the remote interface (Ethernet or GP-IB).
- Start the AQ6370E measurement and observe the spectral curve on the screen. You can use the Curve Zoom function to zoom in on the region of interest and the Marker function to read spectral data such as wavelength, power, signal-to-noise ratio, wavelength spacing, and so on.
- You can save measurement results to the AQ6370E's memory or USB storage device, or transfer them to a remote computer. You can choose to save single or multiple spectral curves, or save a spectral data table.
AQ6370E vs AQ6370D Advantages? Improvement?
- The AQ6370E has a faster measurement speed, which can reach 0.2 sec/100nm, twice as fast as the AQ6370D.
- AQ6370E has 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 has a higher stray light rejection of up to 80dB (typical), eliminating the need to use the large dynamic measurement mode and reducing measurement time.
- The AQ6370E has a larger touch screen for easier operation and also supports APP function for more customised settings and data processing.
- The AQ6370E is a high-performance spectrum analyser that can be used to measure the spectral characteristics of optical communications, optical devices and light sources, and is an upgraded version of the AQ6370D.
How many versions of the AQ6370E Yokogawa are available?
- The High Performance version (-20) has higher wavelength accuracy and dynamic range to provide more accurate and clearer spectral measurements.
- The High Performance version (-20) has a new measurement mode called HCDR (High Near Peak Dynamic Range) mode, which provides sharper spectral curves and clearer side modes for single longitudinal mode laser measurements.
- The High Performance version (-20) has a higher stray light rejection of up to 80dB (typical), eliminating the need for the Large Dynamic Measurement Mode and shortening the measurement time.
- The standard version (-10) has lower wavelength accuracy and dynamic range, but is cheaper and suitable for general spectral measurement applications.
What is the HCDR measurement mode of the Yokogawa AQ6370E?
HCDR stands for High Near-Earth Dynamic Range and is a special measurement mode of the AQ6370E spectrum analyser, which is only available on the high-performance model (-20).The HCDR mode allows the spectral waveform of a single longitudinal-mode laser to be sharper near the peak, and also shows the fringe modes better. This mode is very useful for research and development of lasers and optical devices, providing higher precision characterisation.
AQ6370E Yokogawa Spectrum Analyser, what other measurement modes are available?
- Wavelength Scanning Mode: This is the basic measurement mode of the AQ6370E, which can scan within the set wavelength range, display the spectral waveform, and provide various analysis functions, such as wavelength, power, signal-to-noise ratio, waveform aberration, channel spacing, number of channels, channel flatness, and channel isolation.
- Wavelength tracking mode: This is a special measurement mode of AQ6370E, which can track the wavelength change of the light source in real time and display the values of wavelength and power. This mode is suitable for debugging tunable lasers, optical wavelength converters and other equipment.
- Wavelength Repeatability Test Mode: This is a special measurement mode of the AQ6370E that measures the wavelength repeatability of the light source, i.e. the wavelength stability of the light source under the same input conditions. This mode is suitable for evaluating the performance and quality of lasers.
- SMSR mode: This is a special measurement mode of the AQ6370E that quickly measures the Side Mode Suppression Ratio (SMSR) of the light source, i.e. the power ratio between the primary and secondary modes. This mode reduces measurement time and improves efficiency.
- HCDR Mode: This is a special measurement mode for the AQ6370E that is only available on the High Performance model (-20).The HCDR mode allows the spectral waveform of a single longitudinal mode laser to be sharper near the peak, while also providing a better indication of edge modes. This mode is very useful for research and development of lasers and optical devices, providing higher precision characterisation.