The Anritsu MS9740A reduces the total time from waveform scan to data transfer to an external control device and supports simple analysis procedures. process, providing excellent price/performance and better productivity
The MS9740A supports eight measurement application modes (DFB-LDFP-LD LED, PMD, Opt.Amp, Opt.Amp (multi-channel), WDMLD Module) for the relevant measurement destination. For example: LD spectral characterization, analysis menu and method can be adjusted as needed, such as single longitudinal mode laser (DFB-LD), multi-longitudinal mode laser (FP-LD), broadband LED, etc. In addition, WDM can support the analysis of each wavelength channel. And the batch processing of all test items can be realized in one click.
Feature Function
Reduces total analysis time by measuring passive optics at<0.2s (5nm)
Dedicated applications for evaluating active optics
Excellent price/performance ratio
Dynamic range performance ≥60 dB (0.4 nm from peak wavelength)
30 pm minimum resolution bandwidth
Supports medium pressure and particulate fiber
Light weight and 50% lower power consumption
Model: MS9740A
Name: Spectrum analyzer
Brand:Anritsu
Category: General Electronic Test > Spectrum Analyzer
Product attributes: Mainframe
WDM Applications (MS9740A)
The MS9740A's 42dB dynamic range outside 0.2nm from the peak wavelength ensures accurate measurement of 100GH7 and 50GH7 interval WDM signals. MS9740A can analyze signals of up to 300 channels, and all the information needed for WDM signal analysis such as center wavelength, power, and OSNR can be displayed on the same interface. With detailed noise location selection, two estimation methods can be selected as OSNR analysis: two-point insertion method and noise fitting insertion method. The two-point method can automatically analyze the Dip point, but the distance to the center wavelength can be specified artificially.
The two-point method can automatically analyze the Dip point, but the distance to the center wavelength can be specified artificially. If the noise is not flat or the neighboring channel spectrum has edge modes, it may affect the test accuracy. In this case, the noise fitting method can be used to achieve accurate OSNR measurements. One of two noise fitting methods - specifying the noise region for each WDM signal channel or user-specified noise region - can be chosen. Therefore, high resolution needs to be set. However, for wideband signals, the level amplitude of the test signal is not accurate at high resolution. To solve this problem, Anritsu's MS9740A has a built-in signal integration function, which enables accurate measurement of the level of wideband optical modulation signals at high resolution.
The Anritsu MS9740A reduces the total time from waveform scan to data transfer to an external control device and supports simple analysis procedures. process, providing excellent price/performance and better productivity
The MS9740A supports eight measurement application modes (DFB-LDFP-LD LED, PMD, Opt.Amp, Opt.Amp (multi-channel), WDMLD Module) for the relevant measurement destination. For example: LD spectral characterization, analysis menu and method can be adjusted as needed, such as single longitudinal mode laser (DFB-LD), multi-longitudinal mode laser (FP-LD), broadband LED, etc. In addition, WDM can support the analysis of each wavelength channel. And the batch processing of all test items can be realized in one click.
Feature Function
Reduces total analysis time by measuring passive optics at<0.2s (5nm)
Dedicated applications for evaluating active optics
Excellent price/performance ratio
Dynamic range performance ≥60 dB (0.4 nm from peak wavelength)
30 pm minimum resolution bandwidth
Supports medium pressure and particulate fiber
Light weight and 50% lower power consumption
Model: MS9740A
Name: Spectrum analyzer
Brand:Anritsu
Category: General Electronic Test > Spectrum Analyzer
Product attributes: Mainframe
WDM Applications (MS9740A)
The MS9740A's 42dB dynamic range outside 0.2nm from the peak wavelength ensures accurate measurement of 100GH7 and 50GH7 interval WDM signals. MS9740A can analyze signals of up to 300 channels, and all the information needed for WDM signal analysis such as center wavelength, power, and OSNR can be displayed on the same interface. With detailed noise location selection, two estimation methods can be selected as OSNR analysis: two-point insertion method and noise fitting insertion method. The two-point method can automatically analyze the Dip point, but the distance to the center wavelength can be specified artificially.
The two-point method can automatically analyze the Dip point, but the distance to the center wavelength can be specified artificially. If the noise is not flat or the neighboring channel spectrum has edge modes, it may affect the test accuracy. In this case, the noise fitting method can be used to achieve accurate OSNR measurements. One of two noise fitting methods - specifying the noise region for each WDM signal channel or user-specified noise region - can be chosen. Therefore, high resolution needs to be set. However, for wideband signals, the level amplitude of the test signal is not accurate at high resolution. To solve this problem, Anritsu's MS9740A has a built-in signal integration function, which enables accurate measurement of the level of wideband optical modulation signals at high resolution.